diff --git "a/processing/output/table34.csv" "b/processing/output/table34.csv"
new file mode 100644--- /dev/null
+++ "b/processing/output/table34.csv"
@@ -0,0 +1,1412 @@
+paper_number,compound,chemical_family,sub_family,Ln_ion,Ln_anisotropy,Ln_Kramers,concentration,coordination_number,number_of_ligands,CIF_file_name,CIF_type,closest_polyhedron,CSM,slope_CSM,axial_distortion,year,pub_year,DOI,reference
+2003_01,[Pc2Tb]TBA,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2003-2010,2003,10.1021/ja029629n,"Ishikawa, N., Sugita, M., Ishikawa, T., Koshihara, S. & Kaizu, Y. 2003 Lanthanide Double-Decker Complexes Functioning as Magnets at the Single-Molecular Level. Journal of the American Chemical Society 125, 8694–8695. (doi:10.1021/ja029629n)"
+2003_01,[Pc2Dy]TBA,LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,,,,,,,2003-2010,2003,10.1021/ja029629n,"Ishikawa, N., Sugita, M., Ishikawa, T., Koshihara, S. & Kaizu, Y. 2003 Lanthanide Double-Decker Complexes Functioning as Magnets at the Single-Molecular Level. Journal of the American Chemical Society 125, 8694–8695. (doi:10.1021/ja029629n)"
+2003_01,[Pc2Ho]TBA,LnPc2,,Ho3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2003-2010,2003,10.1021/ja029629n,"Ishikawa, N., Sugita, M., Ishikawa, T., Koshihara, S. & Kaizu, Y. 2003 Lanthanide Double-Decker Complexes Functioning as Magnets at the Single-Molecular Level. Journal of the American Chemical Society 125, 8694–8695. (doi:10.1021/ja029629n)"
+2003_01,[Pc2Er]TBA,LnPc2,,Er3+,Prolate,Kramers,100.0,8.0,2.0,,,,,,,2003-2010,2003,10.1021/ja029629n,"Ishikawa, N., Sugita, M., Ishikawa, T., Koshihara, S. & Kaizu, Y. 2003 Lanthanide Double-Decker Complexes Functioning as Magnets at the Single-Molecular Level. Journal of the American Chemical Society 125, 8694–8695. (doi:10.1021/ja029629n)"
+2003_01,[Pc2Tm]TBA,LnPc2,,Tm3+,Prolate,Non-Kramers,100.0,8.0,2.0,,,,,,,2003-2010,2003,10.1021/ja029629n,"Ishikawa, N., Sugita, M., Ishikawa, T., Koshihara, S. & Kaizu, Y. 2003 Lanthanide Double-Decker Complexes Functioning as Magnets at the Single-Molecular Level. Journal of the American Chemical Society 125, 8694–8695. (doi:10.1021/ja029629n)"
+2003_01,[Pc2Yb]TBA,LnPc2,,Yb3+,Prolate,Kramers,100.0,8.0,2.0,,,,,,,2003-2010,2003,10.1021/ja029629n,"Ishikawa, N., Sugita, M., Ishikawa, T., Koshihara, S. & Kaizu, Y. 2003 Lanthanide Double-Decker Complexes Functioning as Magnets at the Single-Molecular Level. Journal of the American Chemical Society 125, 8694–8695. (doi:10.1021/ja029629n)"
+2003_01,[Pc2Tb]TBA:[Pc2Y]TBA = 1/4,LnPc2,,Tb3+,Oblate,Non-Kramers,20.0,8.0,2.0,,,,,,,2003-2010,2003,10.1021/ja029629n,"Ishikawa, N., Sugita, M., Ishikawa, T., Koshihara, S. & Kaizu, Y. 2003 Lanthanide Double-Decker Complexes Functioning as Magnets at the Single-Molecular Level. Journal of the American Chemical Society 125, 8694–8695. (doi:10.1021/ja029629n)"
+2003_01,[Pc2Dy]TBA:[Pc2Y]TBA = 1/4,LnPc2,,Dy3+,Oblate,Kramers,20.0,8.0,2.0,,,,,,,2003-2010,2003,10.1021/ja029629n,"Ishikawa, N., Sugita, M., Ishikawa, T., Koshihara, S. & Kaizu, Y. 2003 Lanthanide Double-Decker Complexes Functioning as Magnets at the Single-Molecular Level. Journal of the American Chemical Society 125, 8694–8695. (doi:10.1021/ja029629n)"
+2004_01,[Pc2Tb]TBA:[Pc2Y]TBA = 1/50,LnPc2,,Tb3+,Oblate,Non-Kramers,2.0,8.0,2.0,,,,,,,2003-2010,2004,10.1021/jp0376065,"Ishikawa, N., Sugita, M., Ishikawa, T., Koshihara, S. & Kaizu, Y. 2004 Mononuclear Lanthanide Complexes with a Long Magnetization Relaxation Time at High Temperatures:  A New Category of Magnets at the Single-Molecular Level. The Journal of Physical Chemistry B 108, 11265–11271. (doi:10.1021/jp0376065)"
+2004_01,[Pc2Dy]TBA:[Pc2Y]TBA = 1/50,LnPc2,,Dy3+,Oblate,Kramers,2.0,8.0,2.0,,,,,,,2003-2010,2004,10.1021/jp0376065,"Ishikawa, N., Sugita, M., Ishikawa, T., Koshihara, S. & Kaizu, Y. 2004 Mononuclear Lanthanide Complexes with a Long Magnetization Relaxation Time at High Temperatures:  A New Category of Magnets at the Single-Molecular Level. The Journal of Physical Chemistry B 108, 11265–11271. (doi:10.1021/jp0376065)"
+2004_02,[Pc2TbIII]0,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2003-2010,2004,10.1021/ic049348b,"Ishikawa, N., Sugita, M., Tanaka, N., Ishikawa, T., Koshihara, S. & Kaizu, Y. 2004 Upward Temperature Shift of the Intrinsic Phase Lag of the Magnetization of Bis(phthalocyaninato)terbium by Ligand Oxidation Creating anS=1/2Spin. Inorganic Chemistry 43, 5498–5500. (doi:10.1021/ic049348b)"
+2004_02,[(C12H25O)8Pc]2Tb,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2003-2010,2004,10.1021/ic049348b,"Ishikawa, N., Sugita, M., Tanaka, N., Ishikawa, T., Koshihara, S. & Kaizu, Y. 2004 Upward Temperature Shift of the Intrinsic Phase Lag of the Magnetization of Bis(phthalocyaninato)terbium by Ligand Oxidation Creating anS=1/2Spin. Inorganic Chemistry 43, 5498–5500. (doi:10.1021/ic049348b)"
+2004_02,[Pc2Tb]0:[Pc2Y]0 = 1/10,LnPc2,,Tb3+,Oblate,Non-Kramers,9.09,8.0,2.0,,,,,,,2003-2010,2004,10.1021/ic049348b,"Ishikawa, N., Sugita, M., Tanaka, N., Ishikawa, T., Koshihara, S. & Kaizu, Y. 2004 Upward Temperature Shift of the Intrinsic Phase Lag of the Magnetization of Bis(phthalocyaninato)terbium by Ligand Oxidation Creating anS=1/2Spin. Inorganic Chemistry 43, 5498–5500. (doi:10.1021/ic049348b)"
+2005_01,[PcTbPcYPc*]:[Pc2Pc*Y2],LnPc2,,Tb3+,Oblate,Non-Kramers,5.0,8.0,2.0,,,,,,,2003-2010,2005,10.1002/anie.200461546,"Ishikawa, N., Otsuka, S. & Kaizu, Y. 2005 The Effect of the f-f Interaction on the Dynamic Magnetism of a Coupled 4f8 System in a Dinuclear Terbium Complex with Phthalocyanines. Angewandte Chemie International Edition 44, 731–733. (doi:10.1002/anie.200461546)"
+2005_01,[PcYPcTbPc*]:[Pc2Pc*Y2],LnPc2,,Tb3+,Oblate,Non-Kramers,5.0,8.0,2.0,,,,,,,2003-2010,2005,10.1002/anie.200461546,"Ishikawa, N., Otsuka, S. & Kaizu, Y. 2005 The Effect of the f-f Interaction on the Dynamic Magnetism of a Coupled 4f8 System in a Dinuclear Terbium Complex with Phthalocyanines. Angewandte Chemie International Edition 44, 731–733. (doi:10.1002/anie.200461546)"
+2005_02,[(Pc)2Ho0.02Y0.98]-TBA+,LnPc2,,Ho3+,Oblate,Non-Kramers,2.0,8.0,2.0,,,,,,,2003-2010,2005,10.1021/ja0428661,"Ishikawa, N., Sugita, M. & Wernsdorfer, W. 2005 Nuclear Spin Driven Quantum Tunneling of Magnetization in a New Lanthanide Single-Molecule Magnet:  Bis(Phthalocyaninato)holmium Anion. Journal of the American Chemical Society 127, 3650–3651. (doi:10.1021/ja0428661)"
+2005_02,[(Pc)2Ho0.2Y0.8]-TBA+,LnPc2,,Ho3+,Oblate,Non-Kramers,20.0,8.0,2.0,,,,,,,2003-2010,2005,10.1021/ja0428661,"Ishikawa, N., Sugita, M. & Wernsdorfer, W. 2005 Nuclear Spin Driven Quantum Tunneling of Magnetization in a New Lanthanide Single-Molecule Magnet:  Bis(Phthalocyaninato)holmium Anion. Journal of the American Chemical Society 127, 3650–3651. (doi:10.1021/ja0428661)"
+2005_03,[(Pc)2Tb0.02Y0.98]-TBA+,LnPc2,,Tb3+,Oblate,Non-Kramers,2.0,8.0,2.0,,,,,,,2003-2010,2005,10.1002/anie.200462638,"Ishikawa, N., Sugita, M. & Wernsdorfer, W. 2005 Quantum Tunneling of Magnetization in Lanthanide Single-Molecule Magnets: Bis(phthalocyaninato)terbium and Bis(phthalocyaninato)dysprosium Anions. Angewandte Chemie International Edition 44, 2931–2935. (doi:10.1002/anie.200462638)"
+2005_03,[(Pc)2Dy0.02Y0.98]-TBA+,LnPc2,,Dy3+,Oblate,Kramers,2.0,8.0,2.0,,,,,,,2003-2010,2005,10.1002/anie.200462638,"Ishikawa, N., Sugita, M. & Wernsdorfer, W. 2005 Quantum Tunneling of Magnetization in Lanthanide Single-Molecule Magnets: Bis(phthalocyaninato)terbium and Bis(phthalocyaninato)dysprosium Anions. Angewandte Chemie International Edition 44, 2931–2935. (doi:10.1002/anie.200462638)"
+2006_01,(ET)4[Dy(NCS)6]CH2Cl2,Radical,,Dy3+,Oblate,Kramers,100.0,6.0,6.0,,,,,,,2003-2010,2006,10.1080/15421400600698287,"Ueki, S., Nogami, T., Ishida, T. & Tamura, M. 2006 ET and TTF Salts with Lanthanide Complex Ions Showing Frequency-Dependent ac Magnetic Susceptibility. Molecular Crystals and Liquid Crystals 455, 129–134. (doi:10.1080/15421400600698287)"
+2006_01,(ET)4[Ho(NCS)6]CH2Cl2,Radical,,Ho3+,Oblate,Non-Kramers,100.0,6.0,6.0,,,,,,,2003-2010,2006,10.1080/15421400600698287,"Ueki, S., Nogami, T., Ishida, T. & Tamura, M. 2006 ET and TTF Salts with Lanthanide Complex Ions Showing Frequency-Dependent ac Magnetic Susceptibility. Molecular Crystals and Liquid Crystals 455, 129–134. (doi:10.1080/15421400600698287)"
+2006_01,(ET)4[Er(NCS)6]CH2Cl2,Radical,,Er3+,Prolate,Kramers,100.0,6.0,6.0,,,,,,,2003-2010,2006,10.1080/15421400600698287,"Ueki, S., Nogami, T., Ishida, T. & Tamura, M. 2006 ET and TTF Salts with Lanthanide Complex Ions Showing Frequency-Dependent ac Magnetic Susceptibility. Molecular Crystals and Liquid Crystals 455, 129–134. (doi:10.1080/15421400600698287)"
+2006_01,(ET)4[Yb(NCS)6]CH2Cl2,Radical,,Yb3+,Prolate,Kramers,100.0,6.0,6.0,,,,,,,2003-2010,2006,10.1080/15421400600698287,"Ueki, S., Nogami, T., Ishida, T. & Tamura, M. 2006 ET and TTF Salts with Lanthanide Complex Ions Showing Frequency-Dependent ac Magnetic Susceptibility. Molecular Crystals and Liquid Crystals 455, 129–134. (doi:10.1080/15421400600698287)"
+2006_01,(ET)5[Tb(NCS)6NO3]CH2Cl2,Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,7.0,,,,,,,2003-2010,2006,10.1080/15421400600698287,"Ueki, S., Nogami, T., Ishida, T. & Tamura, M. 2006 ET and TTF Salts with Lanthanide Complex Ions Showing Frequency-Dependent ac Magnetic Susceptibility. Molecular Crystals and Liquid Crystals 455, 129–134. (doi:10.1080/15421400600698287)"
+2006_01,(ET)5[Dy(NCS)6NO3]CH2Cl2,Radical,,Dy3+,Oblate,Kramers,100.0,8.0,7.0,,,,,,,2003-2010,2006,10.1080/15421400600698287,"Ueki, S., Nogami, T., Ishida, T. & Tamura, M. 2006 ET and TTF Salts with Lanthanide Complex Ions Showing Frequency-Dependent ac Magnetic Susceptibility. Molecular Crystals and Liquid Crystals 455, 129–134. (doi:10.1080/15421400600698287)"
+2006_01,(TTF)6[Dy(NCS)6],Radical,,Dy3+,Oblate,Kramers,100.0,6.0,6.0,,,,,,,2003-2010,2006,10.1080/15421400600698287,"Ueki, S., Nogami, T., Ishida, T. & Tamura, M. 2006 ET and TTF Salts with Lanthanide Complex Ions Showing Frequency-Dependent ac Magnetic Susceptibility. Molecular Crystals and Liquid Crystals 455, 129–134. (doi:10.1080/15421400600698287)"
+2006_02,[N(C2H5)4]3[Tb(dipic)3].nH2O,Other Families,,Tb3+,Oblate,Non-Kramers,100.0,9.0,3.0,,,,,,,2003-2010,2006,10.1021/ic051089i,"Sugita, M., Ishikawa, N., Ishikawa, T., Koshihara, S. & Kaizu, Y. 2006 Static Magnetic-Field-Induced Phase Lag in the Magnetization Response of Tris(dipicolinato)lanthanides. Inorganic Chemistry 45, 1299–1304. (doi:10.1021/ic051089i)"
+2006_02,[N(C2H5)4]3[Dy(dipic)3].nH2O,Other Families,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,,,,,,,2003-2010,2006,10.1021/ic051089i,"Sugita, M., Ishikawa, N., Ishikawa, T., Koshihara, S. & Kaizu, Y. 2006 Static Magnetic-Field-Induced Phase Lag in the Magnetization Response of Tris(dipicolinato)lanthanides. Inorganic Chemistry 45, 1299–1304. (doi:10.1021/ic051089i)"
+2006_02,[N(C2H5)4]3[Ho(dipic)3].nH2O,Other Families,,Ho3+,Oblate,Non-Kramers,100.0,9.0,3.0,,,,,,,2003-2010,2006,10.1021/ic051089i,"Sugita, M., Ishikawa, N., Ishikawa, T., Koshihara, S. & Kaizu, Y. 2006 Static Magnetic-Field-Induced Phase Lag in the Magnetization Response of Tris(dipicolinato)lanthanides. Inorganic Chemistry 45, 1299–1304. (doi:10.1021/ic051089i)"
+2006_02,[N(C2H5)4]3[Er(dipic)3].nH2O,Other Families,,Er3+,Prolate,Kramers,100.0,9.0,3.0,,,,,,,2003-2010,2006,10.1021/ic051089i,"Sugita, M., Ishikawa, N., Ishikawa, T., Koshihara, S. & Kaizu, Y. 2006 Static Magnetic-Field-Induced Phase Lag in the Magnetization Response of Tris(dipicolinato)lanthanides. Inorganic Chemistry 45, 1299–1304. (doi:10.1021/ic051089i)"
+2006_02,[N(C2H5)4]3[Tm(dipic)3].nH2O,Other Families,,Tm3+,Prolate,Non-Kramers,100.0,9.0,3.0,,,,,,,2003-2010,2006,10.1021/ic051089i,"Sugita, M., Ishikawa, N., Ishikawa, T., Koshihara, S. & Kaizu, Y. 2006 Static Magnetic-Field-Induced Phase Lag in the Magnetization Response of Tris(dipicolinato)lanthanides. Inorganic Chemistry 45, 1299–1304. (doi:10.1021/ic051089i)"
+2006_02,[N(C2H5)4]3[Yb(dipic)3].nH2O,Other Families,,Yb3+,Prolate,Kramers,100.0,9.0,3.0,,,,,,,2003-2010,2006,10.1021/ic051089i,"Sugita, M., Ishikawa, N., Ishikawa, T., Koshihara, S. & Kaizu, Y. 2006 Static Magnetic-Field-Induced Phase Lag in the Magnetization Response of Tris(dipicolinato)lanthanides. Inorganic Chemistry 45, 1299–1304. (doi:10.1021/ic051089i)"
+2007_01,[Zn(μ-L)2Gd(NO3)3]n·solvents,TM near Ln,,Gd3+,Isotropic,Kramers,100.0,10.0,5.0,,Isostructural,,,,,2003-2010,2007,10.1007/s11426-007-0076-y,"Zhang, W., Zhao, F., Liu, T. & Gao, S. 2007 Syntheses, structures and magnetic properties of a family of one-dimensional M(II)-lanthanide(III) (M = Ni(II) and Zn(II)) coordination polymers. Science in China Series B: Chemistry 50, 308–317. (doi:10.1007/s11426-007-0076-y)"
+2007_01,[Zn(μ-L)2Tb(NO3)3]n·solvents,TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,10.0,5.0,643253.cif,Isostructural,Others,2.079,,,2003-2010,2007,10.1007/s11426-007-0076-y,"Zhang, W., Zhao, F., Liu, T. & Gao, S. 2007 Syntheses, structures and magnetic properties of a family of one-dimensional M(II)-lanthanide(III) (M = Ni(II) and Zn(II)) coordination polymers. Science in China Series B: Chemistry 50, 308–317. (doi:10.1007/s11426-007-0076-y)"
+2007_01,[Zn(μ-L)2Dy(NO3)3]n·solvents,TM near Ln,,Dy3+,Oblate,Kramers,100.0,10.0,5.0,643254.cif,Isostructural,Others,2.015,,,2003-2010,2007,10.1007/s11426-007-0076-y,"Zhang, W., Zhao, F., Liu, T. & Gao, S. 2007 Syntheses, structures and magnetic properties of a family of one-dimensional M(II)-lanthanide(III) (M = Ni(II) and Zn(II)) coordination polymers. Science in China Series B: Chemistry 50, 308–317. (doi:10.1007/s11426-007-0076-y)"
+2007_01,[Zn(μ-L)2Ho(NO3)3]n·solvents,TM near Ln,,Ho3+,Oblate,Non-Kramers,100.0,10.0,5.0,643255.cif,Isostructural,Others,2.561,,,2003-2010,2007,10.1007/s11426-007-0076-y,"Zhang, W., Zhao, F., Liu, T. & Gao, S. 2007 Syntheses, structures and magnetic properties of a family of one-dimensional M(II)-lanthanide(III) (M = Ni(II) and Zn(II)) coordination polymers. Science in China Series B: Chemistry 50, 308–317. (doi:10.1007/s11426-007-0076-y)"
+2007_02,[{Pc(OEt)8}2TbIII]-(n-Bu4N)+,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2003-2010,2007,10.1021/ic700954t,"Takamatsu, S., Ishikawa, T., Koshihara, S. & Ishikawa, N. 2007 Significant Increase of the Barrier Energy for Magnetization Reversal of a Single-4f-Ionic Single-Molecule Magnet by a Longitudinal Contraction of the Coordination Space. Inorganic Chemistry 46, 7250–7252. (doi:10.1021/ic700954t)"
+2007_02,[{Pc(OEt)8}2TbIII]+(SbCl6)-,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2003-2010,2007,10.1021/ic700954t,"Takamatsu, S., Ishikawa, T., Koshihara, S. & Ishikawa, N. 2007 Significant Increase of the Barrier Energy for Magnetization Reversal of a Single-4f-Ionic Single-Molecule Magnet by a Longitudinal Contraction of the Coordination Space. Inorganic Chemistry 46, 7250–7252. (doi:10.1021/ic700954t)"
+2007_04,[Dy(hfac)3{NITpPy}]2,Radical,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,,,,,,,2003-2010,2007,10.1039/b617898g,"Poneti, G., Bernot, K., Bogani, L., Caneschi, A., Sessoli, R., Wernsdorfer, W. & Gatteschi, D. 2007 A rational approach to the modulation of the dynamics of the magnetisation in a dysprosium–nitronyl-nitroxide radical complex. Chem. Commun. , 1807–1809. (doi:10.1039/b617898g)"
+2007_04,[Dy(hfac)3{NITpPy}]2,Radical,,Dy3+,Oblate,Kramers,14.93,8.0,5.0,,,,,,,2003-2010,2007,10.1039/b617898g,"Poneti, G., Bernot, K., Bogani, L., Caneschi, A., Sessoli, R., Wernsdorfer, W. & Gatteschi, D. 2007 A rational approach to the modulation of the dynamics of the magnetisation in a dysprosium–nitronyl-nitroxide radical complex. Chem. Commun. , 1807–1809. (doi:10.1039/b617898g)"
+2008_01,[ErW10O36]9-,POM,,Er3+,Prolate,Kramers,100.0,8.0,2.0,4108057.cif,Proper,Square antiprism,0.048,-0.8999999999999999,1.0225405,2003-2010,2008,10.1021/ja801659m,"AlDamen, M. A., Clemente-Juan, J. M., Coronado, E., Martí-Gastaldo, C. & Gaita-Ariño, A. 2008 Mononuclear Lanthanide Single-Molecule Magnets Based on Polyoxometalates. Journal of the American Chemical Society 130, 8874–8875. (doi:10.1021/ja801659m)"
+2008_02,[{Pc(OEt)8}2DyIII]-(n-Bu4N)+,LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,,,,,,,2003-2010,2008,10.1021/ic8014892,"Ishikawa, N., Mizuno, Y., Takamatsu, S., Ishikawa, T. & Koshihara, S. 2008 Effects of Chemically Induced Contraction of a Coordination Polyhedron on the Dynamical Magnetism of Bis(phthalocyaninato)disprosium, a Single-4f-Ionic Single-Molecule Magnet with a Kramers Ground State. Inorganic Chemistry 47, 10217–10219. (doi:10.1021/ic8014892)"
+2008_02,[{Pc(OEt)8}2DyIII]+(SbCl6)-,LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,,,,,,,2003-2010,2008,10.1021/ic8014892,"Ishikawa, N., Mizuno, Y., Takamatsu, S., Ishikawa, T. & Koshihara, S. 2008 Effects of Chemically Induced Contraction of a Coordination Polyhedron on the Dynamical Magnetism of Bis(phthalocyaninato)disprosium, a Single-4f-Ionic Single-Molecule Magnet with a Kramers Ground State. Inorganic Chemistry 47, 10217–10219. (doi:10.1021/ic8014892)"
+2009_01,[Tb(W5O18)2]9-,POM,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,4345124.cif,Isostructural,Square antiprism,0.061,-1.3,1.0325845,2003-2010,2009,10.1021/ic801630z,"AlDamen, M. A., Cardona-Serra, S., Clemente-Juan, J. M., Coronado, E., Gaita-Ariño, A., Martí-Gastaldo, C., Luis, F. & Montero, O. 2009 Mononuclear Lanthanide Single Molecule Magnets Based on the Polyoxometalates [Ln(W5O18)2]9−and [Ln(β2-SiW11O39)2]13−(LnIII= Tb, Dy, Ho, Er, Tm, and Yb). Inorganic Chemistry 48, 3467–3479. (doi:10.1021/ic801630z)"
+2009_01,[Dy(W5O18)2]9-,POM,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,,Isostructural,,,,,2003-2010,2009,10.1021/ic801630z,"AlDamen, M. A., Cardona-Serra, S., Clemente-Juan, J. M., Coronado, E., Gaita-Ariño, A., Martí-Gastaldo, C., Luis, F. & Montero, O. 2009 Mononuclear Lanthanide Single Molecule Magnets Based on the Polyoxometalates [Ln(W5O18)2]9−and [Ln(β2-SiW11O39)2]13−(LnIII= Tb, Dy, Ho, Er, Tm, and Yb). Inorganic Chemistry 48, 3467–3479. (doi:10.1021/ic801630z)"
+2009_01,[Ho(W5O18)2]9-,POM,,Ho3+,Oblate,Non-Kramers,100.0,8.0,2.0,,Proper,,,,,2003-2010,2009,10.1021/ic801630z,"AlDamen, M. A., Cardona-Serra, S., Clemente-Juan, J. M., Coronado, E., Gaita-Ariño, A., Martí-Gastaldo, C., Luis, F. & Montero, O. 2009 Mononuclear Lanthanide Single Molecule Magnets Based on the Polyoxometalates [Ln(W5O18)2]9−and [Ln(β2-SiW11O39)2]13−(LnIII= Tb, Dy, Ho, Er, Tm, and Yb). Inorganic Chemistry 48, 3467–3479. (doi:10.1021/ic801630z)"
+2009_01,[Er(W5O18)2]9-,POM,,Er3+,Prolate,Kramers,100.0,8.0,2.0,,Isostructural,,,,,2003-2010,2009,10.1021/ic801630z,"AlDamen, M. A., Cardona-Serra, S., Clemente-Juan, J. M., Coronado, E., Gaita-Ariño, A., Martí-Gastaldo, C., Luis, F. & Montero, O. 2009 Mononuclear Lanthanide Single Molecule Magnets Based on the Polyoxometalates [Ln(W5O18)2]9−and [Ln(β2-SiW11O39)2]13−(LnIII= Tb, Dy, Ho, Er, Tm, and Yb). Inorganic Chemistry 48, 3467–3479. (doi:10.1021/ic801630z)"
+2009_01,[Tb(SiW11O39)2]13-,POM,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,4301917.cif,Isostructural,Square antiprism,0.167,-1.4,1.035098,2003-2010,2009,10.1021/ic801630z,"AlDamen, M. A., Cardona-Serra, S., Clemente-Juan, J. M., Coronado, E., Gaita-Ariño, A., Martí-Gastaldo, C., Luis, F. & Montero, O. 2009 Mononuclear Lanthanide Single Molecule Magnets Based on the Polyoxometalates [Ln(W5O18)2]9−and [Ln(β2-SiW11O39)2]13−(LnIII= Tb, Dy, Ho, Er, Tm, and Yb). Inorganic Chemistry 48, 3467–3479. (doi:10.1021/ic801630z)"
+2009_01,[Dy(SiW11O39)2]13-,POM,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,,Isostructural,,,,,2003-2010,2009,10.1021/ic801630z,"AlDamen, M. A., Cardona-Serra, S., Clemente-Juan, J. M., Coronado, E., Gaita-Ariño, A., Martí-Gastaldo, C., Luis, F. & Montero, O. 2009 Mononuclear Lanthanide Single Molecule Magnets Based on the Polyoxometalates [Ln(W5O18)2]9−and [Ln(β2-SiW11O39)2]13−(LnIII= Tb, Dy, Ho, Er, Tm, and Yb). Inorganic Chemistry 48, 3467–3479. (doi:10.1021/ic801630z)"
+2009_01,[Ho(SiW11O39)2]13-,POM,,Ho3+,Oblate,Non-Kramers,100.0,8.0,2.0,,Isostructural,,,,,2003-2010,2009,10.1021/ic801630z,"AlDamen, M. A., Cardona-Serra, S., Clemente-Juan, J. M., Coronado, E., Gaita-Ariño, A., Martí-Gastaldo, C., Luis, F. & Montero, O. 2009 Mononuclear Lanthanide Single Molecule Magnets Based on the Polyoxometalates [Ln(W5O18)2]9−and [Ln(β2-SiW11O39)2]13−(LnIII= Tb, Dy, Ho, Er, Tm, and Yb). Inorganic Chemistry 48, 3467–3479. (doi:10.1021/ic801630z)"
+2009_01,[Er(SiW11O39)2]13-,POM,,Er3+,Prolate,Kramers,100.0,8.0,2.0,,Proper,,,,,2003-2010,2009,10.1021/ic801630z,"AlDamen, M. A., Cardona-Serra, S., Clemente-Juan, J. M., Coronado, E., Gaita-Ariño, A., Martí-Gastaldo, C., Luis, F. & Montero, O. 2009 Mononuclear Lanthanide Single Molecule Magnets Based on the Polyoxometalates [Ln(W5O18)2]9−and [Ln(β2-SiW11O39)2]13−(LnIII= Tb, Dy, Ho, Er, Tm, and Yb). Inorganic Chemistry 48, 3467–3479. (doi:10.1021/ic801630z)"
+2009_01,[Tm(SiW11O39)2]13-,POM,,Tm3+,Prolate,Non-Kramers,100.0,8.0,2.0,4301918.cif,Proper,Square antiprism,0.123,-1.1,1.0275605,2003-2010,2009,10.1021/ic801630z,"AlDamen, M. A., Cardona-Serra, S., Clemente-Juan, J. M., Coronado, E., Gaita-Ariño, A., Martí-Gastaldo, C., Luis, F. & Montero, O. 2009 Mononuclear Lanthanide Single Molecule Magnets Based on the Polyoxometalates [Ln(W5O18)2]9−and [Ln(β2-SiW11O39)2]13−(LnIII= Tb, Dy, Ho, Er, Tm, and Yb). Inorganic Chemistry 48, 3467–3479. (doi:10.1021/ic801630z)"
+2009_01,[Yb(SiW11O39)2]13-,POM,,Yb3+,Prolate,Kramers,100.0,8.0,2.0,,Isostructural,,,,,2003-2010,2009,10.1021/ic801630z,"AlDamen, M. A., Cardona-Serra, S., Clemente-Juan, J. M., Coronado, E., Gaita-Ariño, A., Martí-Gastaldo, C., Luis, F. & Montero, O. 2009 Mononuclear Lanthanide Single Molecule Magnets Based on the Polyoxometalates [Ln(W5O18)2]9−and [Ln(β2-SiW11O39)2]13−(LnIII= Tb, Dy, Ho, Er, Tm, and Yb). Inorganic Chemistry 48, 3467–3479. (doi:10.1021/ic801630z)"
+2010_01,[Sm(FTA)3L],Schiff Base,,Sm3+,Prolate,Kramers,100.0,8.0,4.0,7105469.cif,Proper,Triangular dodecahedron,0.886,0.8,0.980032,2003-2010,2010,10.1039/b924547b,"Li, D.-P., Wang, T.-W., Li, C.-H., Liu, D.-S., Li, Y.-Z. & You, X.-Z. 2010 Single-ion magnets based on mononuclear lanthanide complexes with chiral Schiff base ligands [Ln(FTA)3L] (Ln = Sm, Eu, Gd, Tb and Dy). Chemical Communications 46, 2929. (doi:10.1039/b924547b)"
+2010_01,[Gd(FTA)3L],Schiff Base,,Gd3+,Isotropic,Kramers,100.0,8.0,4.0,,Proper,,,,,2003-2010,2010,10.1039/b924547b,"Li, D.-P., Wang, T.-W., Li, C.-H., Liu, D.-S., Li, Y.-Z. & You, X.-Z. 2010 Single-ion magnets based on mononuclear lanthanide complexes with chiral Schiff base ligands [Ln(FTA)3L] (Ln = Sm, Eu, Gd, Tb and Dy). Chemical Communications 46, 2929. (doi:10.1039/b924547b)"
+2010_01,[Tb(FTA)3L],Schiff Base,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,7105470.cif,Proper,Triangular dodecahedron,0.826,0.8,0.980032,2003-2010,2010,10.1039/b924547b,"Li, D.-P., Wang, T.-W., Li, C.-H., Liu, D.-S., Li, Y.-Z. & You, X.-Z. 2010 Single-ion magnets based on mononuclear lanthanide complexes with chiral Schiff base ligands [Ln(FTA)3L] (Ln = Sm, Eu, Gd, Tb and Dy). Chemical Communications 46, 2929. (doi:10.1039/b924547b)"
+2010_01,[Dy(FTA)3L],Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7105466.cif,Proper,Triangular dodecahedron,0.842,0.6,0.985018,2003-2010,2010,10.1039/b924547b,"Li, D.-P., Wang, T.-W., Li, C.-H., Liu, D.-S., Li, Y.-Z. & You, X.-Z. 2010 Single-ion magnets based on mononuclear lanthanide complexes with chiral Schiff base ligands [Ln(FTA)3L] (Ln = Sm, Eu, Gd, Tb and Dy). Chemical Communications 46, 2929. (doi:10.1039/b924547b)"
+2010_02,[Dy(TTA)3(L3)],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4314655.cif,Proper,Square antiprism,1.068,-4.3,1.1084245,2003-2010,2010,10.1021/ic901720a,"Wang, Y., Li, X.-L., Wang, T.-W., Song, Y. & You, X.-Z. 2010 Slow Relaxation Processes and Single-Ion Magnetic Behaviors in Dysprosium-Containing Complexes. Inorganic Chemistry 49, 969–976. (doi:10.1021/ic901720a)"
+2010_04,[Tb(hfac)3NIT-2Py].0.5C7H16,Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,4315578.cif,Proper,Square antiprism,0.782,-3.7,1.0931845,2003-2010,2010,10.1021/ic100008g,"Wang, X.-L., Li, L.-C. & Liao, D.-Z. 2010 Slow Magnetic Relaxation in Lanthanide Complexes with Chelating Nitronyl Nitroxide Radical. Inorganic Chemistry 49, 4735–4737. (doi:10.1021/ic100008g)"
+2010_04,[Dy(hfac)3NIT-2Py].0.5C7H17,Radical,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4315579.cif,Proper,Square antiprism,0.815,-3.9,1.0982605,2003-2010,2010,10.1021/ic100008g,"Wang, X.-L., Li, L.-C. & Liao, D.-Z. 2010 Slow Magnetic Relaxation in Lanthanide Complexes with Chelating Nitronyl Nitroxide Radical. Inorganic Chemistry 49, 4735–4737. (doi:10.1021/ic100008g)"
+2010_09,chiral-derivative of Pc2Tb - disordered,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2003-2010,2010,10.1002/anie.200905007,"Gonidec, M., Luis, F., Vílchez, À., Esquena, J., Amabilino, D. B. & Veciana, J. 2010 A Liquid-Crystalline Single-Molecule Magnet with Variable Magnetic Properties. Angewandte Chemie International Edition 49, 1623–1626. (doi:10.1002/anie.200905007)"
+2010_09,chiral-derivative of Pc2Tb - partially ordered,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2003-2010,2010,10.1002/anie.200905007,"Gonidec, M., Luis, F., Vílchez, À., Esquena, J., Amabilino, D. B. & Veciana, J. 2010 A Liquid-Crystalline Single-Molecule Magnet with Variable Magnetic Properties. Angewandte Chemie International Edition 49, 1623–1626. (doi:10.1002/anie.200905007)"
+2010_09,chiral-derivative of Pc2Tb - ordered crystalline,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2003-2010,2010,10.1002/anie.200905007,"Gonidec, M., Luis, F., Vílchez, À., Esquena, J., Amabilino, D. B. & Veciana, J. 2010 A Liquid-Crystalline Single-Molecule Magnet with Variable Magnetic Properties. Angewandte Chemie International Edition 49, 1623–1626. (doi:10.1002/anie.200905007)"
+2011_01,[ErIIIZnII3(L1)(OAc)(NO3)2(H2O)1.5(MeOH)0.5],TM near Ln,,Er3+,Prolate,Kramers,100.0,9.0,3.0,805688.cif,Proper,Others,2.509,,,2011,2011,10.1002/anie.201008180,"Yamashita, A., Watanabe, A., Akine, S., Nabeshima, T., Nakano, M., Yamamura, T. & Kajiwara, T. 2011 Wheel-Shaped ErIIIZnII3Single-Molecule Magnet: A Macrocyclic Approach to Designing Magnetic Anisotropy. Angewandte Chemie International Edition 50, 4016–4019. (doi:10.1002/anie.201008180)"
+2011_02,Dy(H2BPzMe22)3,Other Families,,Dy3+,Oblate,Kramers,100.0,6.0,3.0,4326123.cif,Proper,Others,0.12,,,2011,2011,10.1021/ic201078r,"Meihaus, K. R., Rinehart, J. D. & Long, J. R. 2011 Dilution-Induced Slow Magnetic Relaxation and Anomalous Hysteresis in Trigonal Prismatic Dysprosium(III) and Uranium(III) Complexes. Inorganic Chemistry 50, 8484–8489. (doi:10.1021/ic201078r)"
+2011_02,Dy(H2BPzMe22)3,Other Families,,Dy3+,Oblate,Kramers,53.0,6.0,3.0,,Isostructural,,,,,2011,2011,10.1021/ic201078r,"Meihaus, K. R., Rinehart, J. D. & Long, J. R. 2011 Dilution-Induced Slow Magnetic Relaxation and Anomalous Hysteresis in Trigonal Prismatic Dysprosium(III) and Uranium(III) Complexes. Inorganic Chemistry 50, 8484–8489. (doi:10.1021/ic201078r)"
+2011_02,Dy(H2BPzMe22)3,Other Families,,Dy3+,Oblate,Kramers,7.0,6.0,3.0,,Isostructural,,,,,2011,2011,10.1021/ic201078r,"Meihaus, K. R., Rinehart, J. D. & Long, J. R. 2011 Dilution-Induced Slow Magnetic Relaxation and Anomalous Hysteresis in Trigonal Prismatic Dysprosium(III) and Uranium(III) Complexes. Inorganic Chemistry 50, 8484–8489. (doi:10.1021/ic201078r)"
+2011_02,Dy(H2BPzMe22)3,Other Families,,Dy3+,Oblate,Kramers,2.0,6.0,3.0,,Isostructural,,,,,2011,2011,10.1021/ic201078r,"Meihaus, K. R., Rinehart, J. D. & Long, J. R. 2011 Dilution-Induced Slow Magnetic Relaxation and Anomalous Hysteresis in Trigonal Prismatic Dysprosium(III) and Uranium(III) Complexes. Inorganic Chemistry 50, 8484–8489. (doi:10.1021/ic201078r)"
+2011_02,Dy(H2BPzMe22)3,Other Families,,Dy3+,Oblate,Kramers,1.0,6.0,3.0,,Isostructural,,,,,2011,2011,10.1021/ic201078r,"Meihaus, K. R., Rinehart, J. D. & Long, J. R. 2011 Dilution-Induced Slow Magnetic Relaxation and Anomalous Hysteresis in Trigonal Prismatic Dysprosium(III) and Uranium(III) Complexes. Inorganic Chemistry 50, 8484–8489. (doi:10.1021/ic201078r)"
+2011_03,[Dy(NTA)3L] / C56H40F9N2O6Dy,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7106517.cif,Proper,Triangular dodecahedron,2.067,2.2,0.945242,2011,2011,10.1039/c1cc11659b,"Li, D.-P., Zhang, X.-P., Wang, T.-W., Ma, B.-B., Li, C.-H., Li, Y.-Z. & You, X.-Z. 2011 Distinct magnetic dynamic behavior for two polymorphs of the same Dy(iii) complex. Chemical Communications 47, 6867. (doi:10.1039/c1cc11659b)"
+2011_03,[Dy(NTA)3L] / C56H40F9N2O6Dy,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7106518.cif,Proper,Biaugmented trigonal prism,1.003,-2.5,1.0628125,2011,2011,10.1039/c1cc11659b,"Li, D.-P., Zhang, X.-P., Wang, T.-W., Ma, B.-B., Li, C.-H., Li, Y.-Z. & You, X.-Z. 2011 Distinct magnetic dynamic behavior for two polymorphs of the same Dy(iii) complex. Chemical Communications 47, 6867. (doi:10.1039/c1cc11659b)"
+2011_04,[{Dy(hfac)3}2Pd(dpk)2],TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,794454.cif,Proper,Square antiprism,0.561,-3.1,1.0779805,2011,2011,10.1016/j.poly.2011.03.020,"Okazawa, A., Nojiri, H., Ishida, T. & Kojima, N. 2011 Single-molecule magnet behavior enhanced by magnetic coupling between 4f and 3d spins. Polyhedron 30, 3140–3144. (doi:10.1016/j.poly.2011.03.020)"
+2011_05,[Dy(phen)(acac)3],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7015752.cif,Proper,Square antiprism,0.425,-3.6,1.090648,2011,2011,10.1039/c1dt10050e,"Chen, G.-J., Gao, C.-Y., Tian, J.-L., Tang, J., Gu, W., Liu, X., Yan, S.-P., Liao, D.-Z. & Cheng, P. 2011 Coordination-perturbed single-molecule magnet behaviour of mononuclear dysprosium complexes. Dalton Transactions 40, 5579. (doi:10.1039/c1dt10050e)"
+2011_05,[Dy(phen)2(NO3)2(acac)]·H2O,Diketonate,,Dy3+,Oblate,Kramers,100.0,,6.0,7015753.cif,Proper,Square antiprism,0.817,4.9,0.8787005,2011,2011,10.1039/c1dt10050e,"Chen, G.-J., Gao, C.-Y., Tian, J.-L., Tang, J., Gu, W., Liu, X., Yan, S.-P., Liao, D.-Z. & Cheng, P. 2011 Coordination-perturbed single-molecule magnet behaviour of mononuclear dysprosium complexes. Dalton Transactions 40, 5579. (doi:10.1039/c1dt10050e)"
+2011_06,C29H33BrDyN3O10Zn,TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,5.0,793485.cif,Proper,Muffin,1.153,2.8,0.930392,2011,2011,10.1002/chem.201003538,"Watanabe, A., Yamashita, A., Nakano, M., Yamamura, T. & Kajiwara, T. 2011 Multi-Path Magnetic Relaxation of Mono-Dysprosium(III) Single-Molecule Magnet with Extremely High Barrier. Chemistry - A European Journal 17, 7428–7432. (doi:10.1002/chem.201003538)"
+2011_07,(Cp*)Er(COT),Metallocene,,Er3+,Prolate,Kramers,100.0,2.0,2.0,4105880.cif,Proper,,,,,2011,2011,10.1021/ja200198v,"Jiang, S.-D., Wang, B.-W., Sun, H.-L., Wang, Z.-M. & Gao, S. 2011 An Organometallic Single-Ion Magnet. Journal of the American Chemical Society 133, 4730–4733. (doi:10.1021/ja200198v)"
+2011_07,(Cp*)Er(COT),Metallocene,,Er3+,Prolate,Kramers,5.0,2.0,2.0,,Isostructural,,,,,2011,2011,10.1021/ja200198v,"Jiang, S.-D., Wang, B.-W., Sun, H.-L., Wang, Z.-M. & Gao, S. 2011 An Organometallic Single-Ion Magnet. Journal of the American Chemical Society 133, 4730–4733. (doi:10.1021/ja200198v)"
+2011_08,[Zn3Dy(LPr)(NO3)3(MeOH)3]·4H2O,TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,780637.cif,Proper,Others,3.795,,,2011,2011,10.1002/chem.201100438,"Feltham, H. L. C., Lan, Y., Klöwer, F., Ungur, L., Chibotaru, L. F., Powell, A. K. & Brooker, S. 2011 A Non‐sandwiched Macrocyclic Monolanthanide Single‐Molecule Magnet: The Key Role of Axiality. Chemistry – A European Journal 17, 4362–4365. (doi:10.1002/chem.201100438)"
+2011_09,Zn3Nd(LPr)(NO3)3·2MeOH·3H2O,TM near Ln,,Nd3+,Oblate,Kramers,100.0,,3.0,,,,,,,2011,2011,10.1039/c1dt11038a,"Feltham, H. L. C., Klöwer, F., Cameron, S. A., Larsen, D. S., Lan, Y., Tropiano, M., Faulkner, S., Powell, A. K. & Brooker, S. 2011 A family of 13 tetranuclear zinc(ii)-lanthanide(iii) complexes of a [3 + 3] Schiff-base macrocycle derived from 1,4-diformyl-2,3-dihydroxybenzene. Dalton Transactions 40, 11425. (doi:10.1039/c1dt11038a)"
+2011_09,[Zn3Pr(LPr)(NO3)2(MeOH)3](NO3)·2H2O,TM near Ln,,Pr3+,Oblate,Non-Kramers,100.0,,3.0,813054.cif,Proper,Others,1.948,,,2011,2011,10.1039/c1dt11038a,"Feltham, H. L. C., Klöwer, F., Cameron, S. A., Larsen, D. S., Lan, Y., Tropiano, M., Faulkner, S., Powell, A. K. & Brooker, S. 2011 A family of 13 tetranuclear zinc(ii)-lanthanide(iii) complexes of a [3 + 3] Schiff-base macrocycle derived from 1,4-diformyl-2,3-dihydroxybenzene. Dalton Transactions 40, 11425. (doi:10.1039/c1dt11038a)"
+2011_09,Zn3Sm(LPr)(NO3)3·3MeOH·3H2O,TM near Ln,,Sm3+,Prolate,Kramers,100.0,,3.0,,,,,,,2011,2011,10.1039/c1dt11038a,"Feltham, H. L. C., Klöwer, F., Cameron, S. A., Larsen, D. S., Lan, Y., Tropiano, M., Faulkner, S., Powell, A. K. & Brooker, S. 2011 A family of 13 tetranuclear zinc(ii)-lanthanide(iii) complexes of a [3 + 3] Schiff-base macrocycle derived from 1,4-diformyl-2,3-dihydroxybenzene. Dalton Transactions 40, 11425. (doi:10.1039/c1dt11038a)"
+2011_09,Zn3Gd(LPr)(NO3)3·3MeOH·5H2O,TM near Ln,,Gd3+,Isotropic,Kramers,100.0,9.0,3.0,,,,,,,2011,2011,10.1039/c1dt11038a,"Feltham, H. L. C., Klöwer, F., Cameron, S. A., Larsen, D. S., Lan, Y., Tropiano, M., Faulkner, S., Powell, A. K. & Brooker, S. 2011 A family of 13 tetranuclear zinc(ii)-lanthanide(iii) complexes of a [3 + 3] Schiff-base macrocycle derived from 1,4-diformyl-2,3-dihydroxybenzene. Dalton Transactions 40, 11425. (doi:10.1039/c1dt11038a)"
+2011_09,Zn3Tb(LPr)(NO3)3·3MeOH·H2O,TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,9.0,3.0,,,,,,,2011,2011,10.1039/c1dt11038a,"Feltham, H. L. C., Klöwer, F., Cameron, S. A., Larsen, D. S., Lan, Y., Tropiano, M., Faulkner, S., Powell, A. K. & Brooker, S. 2011 A family of 13 tetranuclear zinc(ii)-lanthanide(iii) complexes of a [3 + 3] Schiff-base macrocycle derived from 1,4-diformyl-2,3-dihydroxybenzene. Dalton Transactions 40, 11425. (doi:10.1039/c1dt11038a)"
+2011_09,Zn3Ho(LPr)(NO3)3·2MeOH·4H2O,TM near Ln,,Ho3+,Oblate,Non-Kramers,100.0,9.0,3.0,,,,,,,2011,2011,10.1039/c1dt11038a,"Feltham, H. L. C., Klöwer, F., Cameron, S. A., Larsen, D. S., Lan, Y., Tropiano, M., Faulkner, S., Powell, A. K. & Brooker, S. 2011 A family of 13 tetranuclear zinc(ii)-lanthanide(iii) complexes of a [3 + 3] Schiff-base macrocycle derived from 1,4-diformyl-2,3-dihydroxybenzene. Dalton Transactions 40, 11425. (doi:10.1039/c1dt11038a)"
+2011_09,Zn3Er(LPr)(NO3)3·2MeOH·5H2O,TM near Ln,,Er3+,Prolate,Kramers,100.0,9.0,3.0,,Isostructural,,,,,2011,2011,10.1039/c1dt11038a,"Feltham, H. L. C., Klöwer, F., Cameron, S. A., Larsen, D. S., Lan, Y., Tropiano, M., Faulkner, S., Powell, A. K. & Brooker, S. 2011 A family of 13 tetranuclear zinc(ii)-lanthanide(iii) complexes of a [3 + 3] Schiff-base macrocycle derived from 1,4-diformyl-2,3-dihydroxybenzene. Dalton Transactions 40, 11425. (doi:10.1039/c1dt11038a)"
+2011_09,Zn3Tm(LPr)(NO3)3·3MeOH,TM near Ln,,Tm3+,Prolate,Non-Kramers,100.0,9.0,3.0,,,,,,,2011,2011,10.1039/c1dt11038a,"Feltham, H. L. C., Klöwer, F., Cameron, S. A., Larsen, D. S., Lan, Y., Tropiano, M., Faulkner, S., Powell, A. K. & Brooker, S. 2011 A family of 13 tetranuclear zinc(ii)-lanthanide(iii) complexes of a [3 + 3] Schiff-base macrocycle derived from 1,4-diformyl-2,3-dihydroxybenzene. Dalton Transactions 40, 11425. (doi:10.1039/c1dt11038a)"
+2011_09,Zn3Yb(LPr)(NO3)3·4MeOH,TM near Ln,,Yb3+,Prolate,Kramers,100.0,9.0,3.0,,,,,,,2011,2011,10.1039/c1dt11038a,"Feltham, H. L. C., Klöwer, F., Cameron, S. A., Larsen, D. S., Lan, Y., Tropiano, M., Faulkner, S., Powell, A. K. & Brooker, S. 2011 A family of 13 tetranuclear zinc(ii)-lanthanide(iii) complexes of a [3 + 3] Schiff-base macrocycle derived from 1,4-diformyl-2,3-dihydroxybenzene. Dalton Transactions 40, 11425. (doi:10.1039/c1dt11038a)"
+2011_10,"[Dy(TTA)3(2,2’-bipyridine)]",Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,823490.cif,Proper,Square antiprism,0.556,-2.9,1.0729205,2011,2011,10.1002/chem.201101838,"Bi, Y., Guo, Y.-N., Zhao, L., Guo, Y., Lin, S.-Y., Jiang, S.-D., Tang, J., Wang, B.-W. & Gao, S. 2011 Capping Ligand Perturbed Slow Magnetic Relaxation in Dysprosium Single-Ion Magnets. Chemistry - A European Journal 17, 12476–12481. (doi:10.1002/chem.201101838)"
+2011_10,"[Dy(TTA)3(2,2’-bipyridine)]",Diketonate,,Dy3+,Oblate,Kramers,5.0,8.0,4.0,,Isostructural,,,,,2011,2011,10.1002/chem.201101838,"Bi, Y., Guo, Y.-N., Zhao, L., Guo, Y., Lin, S.-Y., Jiang, S.-D., Tang, J., Wang, B.-W. & Gao, S. 2011 Capping Ligand Perturbed Slow Magnetic Relaxation in Dysprosium Single-Ion Magnets. Chemistry - A European Journal 17, 12476–12481. (doi:10.1002/chem.201101838)"
+2011_10,"[Dy(TTA)3(1,10-phenanthroline)]",Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,823491.cif,Proper,Square antiprism,0.557,-4.4,1.110968,2011,2011,10.1002/chem.201101838,"Bi, Y., Guo, Y.-N., Zhao, L., Guo, Y., Lin, S.-Y., Jiang, S.-D., Tang, J., Wang, B.-W. & Gao, S. 2011 Capping Ligand Perturbed Slow Magnetic Relaxation in Dysprosium Single-Ion Magnets. Chemistry - A European Journal 17, 12476–12481. (doi:10.1002/chem.201101838)"
+2011_10,"[Dy(TTA)3(1,10-phenanthroline)]",Diketonate,,Dy3+,Oblate,Kramers,5.0,8.0,4.0,,Isostructural,,,,,2011,2011,10.1002/chem.201101838,"Bi, Y., Guo, Y.-N., Zhao, L., Guo, Y., Lin, S.-Y., Jiang, S.-D., Tang, J., Wang, B.-W. & Gao, S. 2011 Capping Ligand Perturbed Slow Magnetic Relaxation in Dysprosium Single-Ion Magnets. Chemistry - A European Journal 17, 12476–12481. (doi:10.1002/chem.201101838)"
+2011_11,[Tb(hfac)3(IM-2py)],Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,804531.cif,Proper,Triangular dodecahedron,0.685,0.0,1.0,2011,2011,10.1016/j.inoche.2011.07.016,"Wang, X.-L., Tian, H.-X., Ma, Y., Yang, P.-P., Li, L.-C. & Liao, D.-Z. 2011 Slow magnetic relaxation in lanthanide complexes with chelating imino nitroxide radicals. Inorganic Chemistry Communications 14, 1728–1731. (doi:10.1016/j.inoche.2011.07.016)"
+2011_11,[Tb(hfac)3(IM-2thz)],Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,804532.cif,Proper,Square antiprism,0.627,-1.8,1.045162,2011,2011,10.1016/j.inoche.2011.07.016,"Wang, X.-L., Tian, H.-X., Ma, Y., Yang, P.-P., Li, L.-C. & Liao, D.-Z. 2011 Slow magnetic relaxation in lanthanide complexes with chelating imino nitroxide radicals. Inorganic Chemistry Communications 14, 1728–1731. (doi:10.1016/j.inoche.2011.07.016)"
+2011_12,[DyIII(COT‘’)2Li(THF)(DME)],Metallocene,,Dy3+,Oblate,Kramers,100.0,2.0,2.0,4107178.cif,Proper,,,,,2011,2011,10.1021/ja207891y,"Jeletic, M., Lin, P.-H., Le Roy, J. J., Korobkov, I., Gorelsky, S. I. & Murugesu, M. 2011 An Organometallic Sandwich Lanthanide Single-Ion Magnet with an Unusual Multiple Relaxation Mechanism. Journal of the American Chemical Society 133, 19286–19289. (doi:10.1021/ja207891y)"
+2012_01,(Pc)Tb(Pc)Y(T(p-OMe)PP),LnPc2,,Tb3+,Oblate,Non-Kramers,,8.0,2.0,866895.cif,Isostructural,Square antiprism,1.243,-9.3,1.2368245,2012,2012,10.1039/c2cc31125a,"Sakaue, S., Fuyuhiro, A., Fukuda, T. & Ishikawa, N. 2012 Dinuclear single-molecule magnets with porphyrin–phthalocyanine mixed triple-decker ligand systems giving SAP and SP coordination polyhedra. Chemical Communications 48, 5337. (doi:10.1039/c2cc31125a)"
+2012_01,(Pc)Y(Pc)Tb(T(p-OMe)PP),LnPc2,,Tb3+,Oblate,Non-Kramers,,8.0,2.0,,Isostructural,,,,,2012,2012,10.1039/c2cc31125a,"Sakaue, S., Fuyuhiro, A., Fukuda, T. & Ishikawa, N. 2012 Dinuclear single-molecule magnets with porphyrin–phthalocyanine mixed triple-decker ligand systems giving SAP and SP coordination polyhedra. Chemical Communications 48, 5337. (doi:10.1039/c2cc31125a)"
+2012_02,[Dy(9Accm)2(NO3)(dmf)2],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,870042.cif,Proper,Others,16.367,,,2012,2012,10.1002/chem.201200955,"Menelaou, M., Ouharrou, F., Rodríguez, L., Roubeau, O., Teat, S. J. & Aliaga-Alcalde, N. 2012 DyIII- and YbIII-Curcuminoid Compounds: Original Fluorescent Single-Ion Magnet and Magnetic Near-IR Luminescent Species. Chemistry - A European Journal 18, 11545–11549. (doi:10.1002/chem.201200955)"
+2012_02,[Yb(9Accm)3(py)],Diketonate,,Yb3+,Prolate,Kramers,100.0,7.0,4.0,870041.cif,Proper,Capped trigonal prism,0.521,-0.3,1.0075045,2012,2012,10.1002/chem.201200955,"Menelaou, M., Ouharrou, F., Rodríguez, L., Roubeau, O., Teat, S. J. & Aliaga-Alcalde, N. 2012 DyIII- and YbIII-Curcuminoid Compounds: Original Fluorescent Single-Ion Magnet and Magnetic Near-IR Luminescent Species. Chemistry - A European Journal 18, 11545–11549. (doi:10.1002/chem.201200955)"
+2012_03,[YbIII(H3L)2]Cl3·5CH3OH·2H2O,Other Families,,Yb3+,Prolate,Kramers,100.0,6.0,2.0,4329945.cif,Proper,Octahedron,0.354,0.0,1.0,2012,2012,10.1021/ic301115b,"Liu, J.-L., Yuan, K., Leng, J.-D., Ungur, L., Wernsdorfer, W., Guo, F.-S., Chibotaru, L. F. & Tong, M.-L. 2012 A Six-Coordinate Ytterbium Complex Exhibiting Easy-Plane Anisotropy and Field-Induced Single-Ion Magnet Behavior. Inorganic Chemistry 51, 8538–8544. (doi:10.1021/ic301115b)"
+2012_04,(Cp*)Tb(COT),Metallocene,,Tb3+,Oblate,Non-Kramers,100.0,2.0,2.0,4328535.cif,Proper,,,,,2012,2012,10.1021/ic202511n,"Jiang, S.-D., Liu, S.-S., Zhou, L.-N., Wang, B.-W., Wang, Z.-M. & Gao, S. 2012 Series of Lanthanide Organometallic Single-Ion Magnets. Inorganic Chemistry 51, 3079–3087. (doi:10.1021/ic202511n)"
+2012_04,(Cp*)Dy(COT),Metallocene,,Dy3+,Oblate,Kramers,100.0,2.0,2.0,4328536.cif,Proper,,,,,2012,2012,10.1021/ic202511n,"Jiang, S.-D., Liu, S.-S., Zhou, L.-N., Wang, B.-W., Wang, Z.-M. & Gao, S. 2012 Series of Lanthanide Organometallic Single-Ion Magnets. Inorganic Chemistry 51, 3079–3087. (doi:10.1021/ic202511n)"
+2012_04,(Cp*)Dy(COT),Metallocene,,Dy3+,Oblate,Kramers,5.0,2.0,2.0,,Isostructural,,,,,2012,2012,10.1021/ic202511n,"Jiang, S.-D., Liu, S.-S., Zhou, L.-N., Wang, B.-W., Wang, Z.-M. & Gao, S. 2012 Series of Lanthanide Organometallic Single-Ion Magnets. Inorganic Chemistry 51, 3079–3087. (doi:10.1021/ic202511n)"
+2012_04,(Cp*)Ho(COT),Metallocene,,Ho3+,Oblate,Non-Kramers,100.0,2.0,2.0,4328537.cif,Proper,,,,,2012,2012,10.1021/ic202511n,"Jiang, S.-D., Liu, S.-S., Zhou, L.-N., Wang, B.-W., Wang, Z.-M. & Gao, S. 2012 Series of Lanthanide Organometallic Single-Ion Magnets. Inorganic Chemistry 51, 3079–3087. (doi:10.1021/ic202511n)"
+2012_04,(Cp*)Ho(COT),Metallocene,,Ho3+,Oblate,Non-Kramers,5.0,2.0,2.0,,Isostructural,,,,,2012,2012,10.1021/ic202511n,"Jiang, S.-D., Liu, S.-S., Zhou, L.-N., Wang, B.-W., Wang, Z.-M. & Gao, S. 2012 Series of Lanthanide Organometallic Single-Ion Magnets. Inorganic Chemistry 51, 3079–3087. (doi:10.1021/ic202511n)"
+2012_04,(Cp*)Tm(COT),Metallocene,,Tm3+,Prolate,Non-Kramers,100.0,2.0,2.0,4328539.cif,Proper,,,,,2012,2012,10.1021/ic202511n,"Jiang, S.-D., Liu, S.-S., Zhou, L.-N., Wang, B.-W., Wang, Z.-M. & Gao, S. 2012 Series of Lanthanide Organometallic Single-Ion Magnets. Inorganic Chemistry 51, 3079–3087. (doi:10.1021/ic202511n)"
+2012_05,NdTp3,Other Families,,Nd3+,Oblate,Kramers,100.0,9.0,3.0,,,,,,,2012,2012,10.1039/c2dt31352a,"Rinehart, J. D. & Long, J. R. 2012 Slow magnetic relaxation in homoleptic trispyrazolylborate complexes of neodymium(iii) and uranium(iii). Dalton Transactions 41, 13572. (doi:10.1039/c2dt31352a)"
+2012_05,NdTp3,Other Families,,Nd3+,Oblate,Kramers,59.0,9.0,3.0,,,,,,,2012,2012,10.1039/c2dt31352a,"Rinehart, J. D. & Long, J. R. 2012 Slow magnetic relaxation in homoleptic trispyrazolylborate complexes of neodymium(iii) and uranium(iii). Dalton Transactions 41, 13572. (doi:10.1039/c2dt31352a)"
+2012_05,NdTp3,Other Families,,Nd3+,Oblate,Kramers,15.0,9.0,3.0,,,,,,,2012,2012,10.1039/c2dt31352a,"Rinehart, J. D. & Long, J. R. 2012 Slow magnetic relaxation in homoleptic trispyrazolylborate complexes of neodymium(iii) and uranium(iii). Dalton Transactions 41, 13572. (doi:10.1039/c2dt31352a)"
+2012_05,NdTp3,Other Families,,Nd3+,Oblate,Kramers,3.8,9.0,3.0,,,,,,,2012,2012,10.1039/c2dt31352a,"Rinehart, J. D. & Long, J. R. 2012 Slow magnetic relaxation in homoleptic trispyrazolylborate complexes of neodymium(iii) and uranium(iii). Dalton Transactions 41, 13572. (doi:10.1039/c2dt31352a)"
+2012_06,{[Pc(OC4H9)8]Tb[Pc(OC4H9)8]Cd(Pc)Y(Pc)},LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2012,2012,10.1002/chem.201200552,"Wang, H., Liu, T., Wang, K., Duan, C. & Jiang, J. 2012 Tetrakis(phthalocyaninato) Rare-Earth-Cadmium-Rare-Earth Quadruple-Decker Sandwich SMMs: Suppression of QTM by Long-Distance f-f Interactions. Chemistry - A European Journal 18, 7691–7694. (doi:10.1002/chem.201200552)"
+2012_06,{[Pc(OC4H9)8]Y[Pc(OC4H9)8]Cd(Pc)Tb(Pc)},LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2012,2012,10.1002/chem.201200552,"Wang, H., Liu, T., Wang, K., Duan, C. & Jiang, J. 2012 Tetrakis(phthalocyaninato) Rare-Earth-Cadmium-Rare-Earth Quadruple-Decker Sandwich SMMs: Suppression of QTM by Long-Distance f-f Interactions. Chemistry - A European Journal 18, 7691–7694. (doi:10.1002/chem.201200552)"
+2012_08,[Gd(acac)3(NIT-2Py)]·0.5NIT-2Py,Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,4.0,,Proper,,,,,2012,2012,10.1039/c1dt11795e,"Mei, X.-L., Ma, Y., Li, L.-C. & Liao, D.-Z. 2012 Ligand field-tuned single-molecule magnet behaviour of 2p–4f complexes. Dalton Trans. 41, 505–511. (doi:10.1039/c1dt11795e)"
+2012_08,[Dy(acac)3(NIT-2Py)]·0.5NIT-2Py,Radical,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7017976.cif,Proper,Square antiprism,0.489,-3.0,1.07545,2012,2012,10.1039/c1dt11795e,"Mei, X.-L., Ma, Y., Li, L.-C. & Liao, D.-Z. 2012 Ligand field-tuned single-molecule magnet behaviour of 2p–4f complexes. Dalton Trans. 41, 505–511. (doi:10.1039/c1dt11795e)"
+2012_08,[Dy(tfa)3(NIT-2Py)]·0.5C7H16,Radical,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7017977.cif,Proper,Square antiprism,0.836,-3.5,1.0881125,2012,2012,10.1039/c1dt11795e,"Mei, X.-L., Ma, Y., Li, L.-C. & Liao, D.-Z. 2012 Ligand field-tuned single-molecule magnet behaviour of 2p–4f complexes. Dalton Trans. 41, 505–511. (doi:10.1039/c1dt11795e)"
+2012_09,[Gd(Phtfac)3(NITpPy)]2,Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,4.0,,Proper,,,,,2012,2012,10.1039/c2dt11671e,"Mei, X.-L., Liu, R.-N., Wang, C., Yang, P.-P., Li, L.-C. & Liao, D.-Z. 2012 Modulating spin dynamics of cyclic LnIII-radical complexes (LnIII = Tb, Dy) by using phenyltrifluoroacetylacetonate coligand. Dalton Transactions 41, 2904. (doi:10.1039/c2dt11671e)"
+2012_09,[Tb(Phtfac)3(NITpPy)]2,Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,7018164.cif,Proper,Triangular dodecahedron,1.152,4.0,0.9008,2012,2012,10.1039/c2dt11671e,"Mei, X.-L., Liu, R.-N., Wang, C., Yang, P.-P., Li, L.-C. & Liao, D.-Z. 2012 Modulating spin dynamics of cyclic LnIII-radical complexes (LnIII = Tb, Dy) by using phenyltrifluoroacetylacetonate coligand. Dalton Transactions 41, 2904. (doi:10.1039/c2dt11671e)"
+2012_09,[Dy(Phtfac)3(NITpPy)]2,Radical,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7018165.cif,Proper,Triangular dodecahedron,1.147,4.0,0.9008,2012,2012,10.1039/c2dt11671e,"Mei, X.-L., Liu, R.-N., Wang, C., Yang, P.-P., Li, L.-C. & Liao, D.-Z. 2012 Modulating spin dynamics of cyclic LnIII-radical complexes (LnIII = Tb, Dy) by using phenyltrifluoroacetylacetonate coligand. Dalton Transactions 41, 2904. (doi:10.1039/c2dt11671e)"
+2012_12,[Dy(hmb)(NO3)2(DMF)2],Schiff Base,,Dy3+,Oblate,Kramers,100.0,9.0,5.0,7020327.cif,Proper,Muffin,2.142,0.2,0.995002,2012,2012,10.1039/c2dt31226c,"Lin, P.-H., Korobkov, I., Burchell, T. J. & Murugesu, M. 2012 Connecting single-ion magnets through ligand dimerisation. Dalton Transactions 41, 13649. (doi:10.1039/c2dt31226c)"
+2012_12,[Dy2(hmt)(NO3)4(DMF)4]·DMF,Schiff Base,,Dy3+,Oblate,Kramers,100.0,9.0,5.0,7020326.cif,Proper,Spherical capped square antiprism,1.661,-1.0,1.02505,2012,2012,10.1039/c2dt31226c,"Lin, P.-H., Korobkov, I., Burchell, T. J. & Murugesu, M. 2012 Connecting single-ion magnets through ligand dimerisation. Dalton Transactions 41, 13649. (doi:10.1039/c2dt31226c)"
+2012_13,"[(LOEt)Dy((R,R)-Salphen)]2·3H2O",Mixed Ligands,1100.0,Dy3+,Oblate,Kramers,100.0,7.0,2.0,7020300.cif,Proper,Capped trigonal prism,1.568,-2.3,1.0577645,2012,2012,10.1039/c2dt31203d,"Yao, M.-X., Zheng, Q., Gao, F., Li, Y.-Z., Song, Y. & Zuo, J.-L. 2012 Field-induced slow magnetic relaxation in chiral seven-coordinated mononuclear lanthanide complexes. Dalton Transactions 41, 13682. (doi:10.1039/c2dt31203d)"
+2012_13,"[(LOEt)- Dy((R,R)-5-Cl-Salcy)]·CH3OH·1/8H2O",Mixed Ligands,1100.0,Dy3+,Oblate,Kramers,100.0,7.0,2.0,7020302.cif,Proper,Capped trigonal prism,0.622,-2.6,1.065338,2012,2012,10.1039/c2dt31203d,"Yao, M.-X., Zheng, Q., Gao, F., Li, Y.-Z., Song, Y. & Zuo, J.-L. 2012 Field-induced slow magnetic relaxation in chiral seven-coordinated mononuclear lanthanide complexes. Dalton Transactions 41, 13682. (doi:10.1039/c2dt31203d)"
+2012_13,"[(LOEt)Tb((R,R)-5-Cl-Salcy)]· CH3OH·1/8H2O",Mixed Ligands,1100.0,Tb3+,Oblate,Non-Kramers,100.0,7.0,2.0,7020304.cif,Proper,Capped trigonal prism,0.716,-2.2,1.055242,2012,2012,10.1039/c2dt31203d,"Yao, M.-X., Zheng, Q., Gao, F., Li, Y.-Z., Song, Y. & Zuo, J.-L. 2012 Field-induced slow magnetic relaxation in chiral seven-coordinated mononuclear lanthanide complexes. Dalton Transactions 41, 13682. (doi:10.1039/c2dt31203d)"
+2012_13,"[(LOEt)Ho((R,R)-5-Cl-Salcy)]· CH3OH·1/8H2O",Mixed Ligands,1100.0,Ho3+,Oblate,Non-Kramers,100.0,7.0,2.0,7020306.cif,Proper,Capped trigonal prism,0.624,-1.7,1.0426445,2012,2012,10.1039/c2dt31203d,"Yao, M.-X., Zheng, Q., Gao, F., Li, Y.-Z., Song, Y. & Zuo, J.-L. 2012 Field-induced slow magnetic relaxation in chiral seven-coordinated mononuclear lanthanide complexes. Dalton Transactions 41, 13682. (doi:10.1039/c2dt31203d)"
+2012_14,[Gd(tfa)3(NIT-BzImH)],Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,4.0,,Proper,,,,,2012,2012,10.1039/c2dt31806g,"Hu, P., Zhu, M., Mei, X., Tian, H., Ma, Y., Li, L. & Liao, D. 2012 Single-molecule magnets based on rare earth complexes with chelating benzimidazole-substituted nitronyl nitroxide radicals. Dalton Transactions 41, 14651. (doi:10.1039/c2dt31806g)"
+2012_14,[Tb(tfa)3(NIT-BzImH)],Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,7020541.cif,Proper,Square antiprism,0.36,-2.7,1.0678645,2012,2012,10.1039/c2dt31806g,"Hu, P., Zhu, M., Mei, X., Tian, H., Ma, Y., Li, L. & Liao, D. 2012 Single-molecule magnets based on rare earth complexes with chelating benzimidazole-substituted nitronyl nitroxide radicals. Dalton Transactions 41, 14651. (doi:10.1039/c2dt31806g)"
+2012_14,[Dy(tfa)3(NIT-BzImH)],Radical,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7020542.cif,Proper,Square antiprism,0.353,-2.7,1.0678645,2012,2012,10.1039/c2dt31806g,"Hu, P., Zhu, M., Mei, X., Tian, H., Ma, Y., Li, L. & Liao, D. 2012 Single-molecule magnets based on rare earth complexes with chelating benzimidazole-substituted nitronyl nitroxide radicals. Dalton Transactions 41, 14651. (doi:10.1039/c2dt31806g)"
+2012_17,[Dy(H3L)2](NO3)·(EtOH)·8(H2O),Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,4330286.cif,Proper,Triangular dodecahedron,0.8,1.3,0.9675845,2012,2012,10.1021/ic300065x,"Bhunia, A. et al. 2012 From a Dy(III) Single Molecule Magnet (SMM) to a Ferromagnetic [Mn(II)Dy(III)Mn(II)] Trinuclear Complex. Inorganic Chemistry 51, 9589–9597. (doi:10.1021/ic300065x)"
+2012_17,[Dy(H3L)2](NO3)·(EtOH)·8(H2O),Schiff Base,,Dy3+,Oblate,Kramers,19.5,8.0,2.0,,Isostructural,,,,,2012,2012,10.1021/ic300065x,"Bhunia, A. et al. 2012 From a Dy(III) Single Molecule Magnet (SMM) to a Ferromagnetic [Mn(II)Dy(III)Mn(II)] Trinuclear Complex. Inorganic Chemistry 51, 9589–9597. (doi:10.1021/ic300065x)"
+2012_19,Dy(obPc)2,LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,,,,,,,2012,2012,10.1007/s11426-012-4615-9,"Katoh, K., Umetsu, K., Breedlove Brian, K. & Yamashita, M. 2012 Magnetic relaxation behavior of a spatially closed dysprosium(III) phthalocyaninato double-decker complex. Science China Chemistry 55, 918–925. (doi:10.1007/s11426-012-4615-9)"
+2012_19,Dy(obPc)2:Y(obPc)2 = 1/11,LnPc2,,Dy3+,Oblate,Kramers,9.09,8.0,2.0,,,,,,,2012,2012,10.1007/s11426-012-4615-9,"Katoh, K., Umetsu, K., Breedlove Brian, K. & Yamashita, M. 2012 Magnetic relaxation behavior of a spatially closed dysprosium(III) phthalocyaninato double-decker complex. Science China Chemistry 55, 918–925. (doi:10.1007/s11426-012-4615-9)"
+2012_27,(NEt4)2[Dy2(L1)4]((CH3)2CO)0.25,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,785130.cif,Proper,Square antiprism,2.053,-4.5,1.1135125,2012,2012,10.1039/c2sc01029a,"Habib, F., Long, J., Lin, P.-H., Korobkov, I., Ungur, L., Wernsdorfer, W., Chibotaru, L. F. & Murugesu, M. 2012 Supramolecular architectures for controlling slow magnetic relaxation in field-induced single-molecule magnets. Chemical Science 3, 2158. (doi:10.1039/c2sc01029a)"
+2012_27,(NEt4)2[Dy2(L2)4](H2O)(DMF)0.5,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,818518.cif,Proper,Triangular dodecahedron,1.449,-4.7,1.1186045,2012,2012,10.1039/c2sc01029a,"Habib, F., Long, J., Lin, P.-H., Korobkov, I., Ungur, L., Wernsdorfer, W., Chibotaru, L. F. & Murugesu, M. 2012 Supramolecular architectures for controlling slow magnetic relaxation in field-induced single-molecule magnets. Chemical Science 3, 2158. (doi:10.1039/c2sc01029a)"
+2012_27,(NEt4)2[Dy2(L3)4]((Et2O)2((CH3)2CO)1.5,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,818519.cif,Proper,Triangular dodecahedron,1.275,-4.9,1.1237005,2012,2012,10.1039/c2sc01029a,"Habib, F., Long, J., Lin, P.-H., Korobkov, I., Ungur, L., Wernsdorfer, W., Chibotaru, L. F. & Murugesu, M. 2012 Supramolecular architectures for controlling slow magnetic relaxation in field-induced single-molecule magnets. Chemical Science 3, 2158. (doi:10.1039/c2sc01029a)"
+2012_28,Quadruple decker: {[Tb(obPc)2]Cd[Tb(obPc)2]},LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,7020383.cif,Proper,Others,3.195,,,2012,2012,10.1039/c2dt31400b,"Katoh, K., Horii, Y., Yasuda, N., Wernsdorfer, W., Toriumi, K., Breedlove, B. K. & Yamashita, M. 2012 Multiple-decker phthalocyaninato dinuclear lanthanoid(iii) single-molecule magnets with dual-magnetic relaxation processes. Dalton Transactions 41, 13582. (doi:10.1039/c2dt31400b)"
+2012_28,Quadruple decker: {[Dy(obPc)2]Cd[Dy(obPc)2]},LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,7020384.cif,Proper,Triangular dodecahedron,3.078,7.1,0.8250205,2012,2012,10.1039/c2dt31400b,"Katoh, K., Horii, Y., Yasuda, N., Wernsdorfer, W., Toriumi, K., Breedlove, B. K. & Yamashita, M. 2012 Multiple-decker phthalocyaninato dinuclear lanthanoid(iii) single-molecule magnets with dual-magnetic relaxation processes. Dalton Transactions 41, 13582. (doi:10.1039/c2dt31400b)"
+2012_28,Quintuple decker: {[Tb(obPc)2]Cd(obPc)Cd[Tb(obPc)2]},LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2012,2012,10.1039/c2dt31400b,"Katoh, K., Horii, Y., Yasuda, N., Wernsdorfer, W., Toriumi, K., Breedlove, B. K. & Yamashita, M. 2012 Multiple-decker phthalocyaninato dinuclear lanthanoid(iii) single-molecule magnets with dual-magnetic relaxation processes. Dalton Transactions 41, 13582. (doi:10.1039/c2dt31400b)"
+2012_30,[Gd(hfac)3(NITPhPO(OEt)2)]2,Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,Proper,,,,,2012,2012,10.1021/ic301394x,"Pointillart, F., Bernot, K., Poneti, G. & Sessoli, R. 2012 Crystal Packing Effects on the Magnetic Slow Relaxation of Tb(III)-Nitronyl Nitroxide Radical Cyclic Dinuclear Clusters. Inorganic Chemistry 51, 12218–12229. (doi:10.1021/ic301394x)"
+2012_30,[Tb(hfac)3(NITPhPO(OEt)2)]2,Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,4331016.cif,Proper,Triangular dodecahedron,0.463,0.8,0.980032,2012,2012,10.1021/ic301394x,"Pointillart, F., Bernot, K., Poneti, G. & Sessoli, R. 2012 Crystal Packing Effects on the Magnetic Slow Relaxation of Tb(III)-Nitronyl Nitroxide Radical Cyclic Dinuclear Clusters. Inorganic Chemistry 51, 12218–12229. (doi:10.1021/ic301394x)"
+2012_30,[Tb(hfac)3(NITPhPO(OEt)2)]2,Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,4331017.cif,Proper,Triangular dodecahedron,0.869,1.7,0.9576445,2012,2012,10.1021/ic301394x,"Pointillart, F., Bernot, K., Poneti, G. & Sessoli, R. 2012 Crystal Packing Effects on the Magnetic Slow Relaxation of Tb(III)-Nitronyl Nitroxide Radical Cyclic Dinuclear Clusters. Inorganic Chemistry 51, 12218–12229. (doi:10.1021/ic301394x)"
+2012_30,[Dy(hfac)3(NITPhPO(OEt)2)]2,Radical,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,4331018.cif,Proper,Triangular dodecahedron,0.812,1.5,0.9626125,2012,2012,10.1021/ic301394x,"Pointillart, F., Bernot, K., Poneti, G. & Sessoli, R. 2012 Crystal Packing Effects on the Magnetic Slow Relaxation of Tb(III)-Nitronyl Nitroxide Radical Cyclic Dinuclear Clusters. Inorganic Chemistry 51, 12218–12229. (doi:10.1021/ic301394x)"
+2012_31,[K(DME)2][Dy(tmtaa)2],Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,7107749.cif,Proper,Others,0.254,,,2012,2012,10.1039/c2cc31227a,"Williams, U. J., Mahoney, B. D., DeGregorio, P. T., Carroll, P. J., Nakamaru-Ogiso, E., Kikkawa, J. M. & Schelter, E. J. 2012 A comparison of the effects of symmetry and magnetoanisotropy on paramagnetic relaxation in related dysprosium single ion magnets. Chemical Communications 48, 5593. (doi:10.1039/c2cc31227a)"
+2012_31,"[K(DME)2][Y(tmtaa)2]0,95[Dy(tmtaa)2]0,05",Other Families,,Dy3+,Oblate,Kramers,5.0,8.0,2.0,,Isostructural,,,,,2012,2012,10.1039/c2cc31227a,"Williams, U. J., Mahoney, B. D., DeGregorio, P. T., Carroll, P. J., Nakamaru-Ogiso, E., Kikkawa, J. M. & Schelter, E. J. 2012 A comparison of the effects of symmetry and magnetoanisotropy on paramagnetic relaxation in related dysprosium single ion magnets. Chemical Communications 48, 5593. (doi:10.1039/c2cc31227a)"
+2012_31,[K(DME)(18-crown-6)][Dy(tmtaa)2],Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,,Proper,,,,,2012,2012,10.1039/c2cc31227a,"Williams, U. J., Mahoney, B. D., DeGregorio, P. T., Carroll, P. J., Nakamaru-Ogiso, E., Kikkawa, J. M. & Schelter, E. J. 2012 A comparison of the effects of symmetry and magnetoanisotropy on paramagnetic relaxation in related dysprosium single ion magnets. Chemical Communications 48, 5593. (doi:10.1039/c2cc31227a)"
+2012_31,"[K(DME)(18-crown-6)][Y(tmtaa)2]0,95[Dy(tmtaa)2]0,05",Other Families,,Dy3+,Oblate,Kramers,5.0,8.0,2.0,,Isostructural,,,,,2012,2012,10.1039/c2cc31227a,"Williams, U. J., Mahoney, B. D., DeGregorio, P. T., Carroll, P. J., Nakamaru-Ogiso, E., Kikkawa, J. M. & Schelter, E. J. 2012 A comparison of the effects of symmetry and magnetoanisotropy on paramagnetic relaxation in related dysprosium single ion magnets. Chemical Communications 48, 5593. (doi:10.1039/c2cc31227a)"
+2012_32,[Dy(H2L)(NO3)3].2CH3OH,Other Families,,Dy3+,Oblate,Kramers,100.0,9.0,4.0,7108107.cif,Proper,Others,13.873,,,2012,2012,10.1039/c2cc32518g,"Ruiz, J., Mota, A. J., Rodríguez-Diéguez, A., Titos, S., Herrera, J. M., Ruiz, E., Cremades, E., Costes, J. P. & Colacio, E. 2012 Field and dilution effects on the slow relaxation of a luminescent DyO9 low-symmetry single-ion magnet. Chemical Communications 48, 7916. (doi:10.1039/c2cc32518g)"
+2012_32,"[Y(H2L)(NO3)3]0,89[Dy(H2L)(NO3)3]0,11.2CH3OH",Other Families,,Dy3+,Oblate,Kramers,11.0,9.0,4.0,,Isostructural,,,,,2012,2012,10.1039/c2cc32518g,"Ruiz, J., Mota, A. J., Rodríguez-Diéguez, A., Titos, S., Herrera, J. M., Ruiz, E., Cremades, E., Costes, J. P. & Colacio, E. 2012 Field and dilution effects on the slow relaxation of a luminescent DyO9 low-symmetry single-ion magnet. Chemical Communications 48, 7916. (doi:10.1039/c2cc32518g)"
+2012_33,[Dy(dbm)3LR].2H2O,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,873085.cif,Proper,Biaugmented trigonal prism,1.158,-4.4,1.110968,2012,2012,10.1002/chem.201201190,"Li, X.-L., Chen, C.-L., Gao, Y.-L., Liu, C.-M., Feng, X.-L., Gui, Y.-H. & Fang, S.-M. 2012 Modulation of Homochiral DyIIIComplexes: Single-Molecule Magnets with Ferroelectric Properties. Chemistry - A European Journal 18, 14632–14637. (doi:10.1002/chem.201201190)"
+2012_33,[Dy2(dbm)6LR].2H2O,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,873087.cif,Proper,Triangular dodecahedron,0.897,2.8,0.930392,2012,2012,10.1002/chem.201201190,"Li, X.-L., Chen, C.-L., Gao, Y.-L., Liu, C.-M., Feng, X.-L., Gui, Y.-H. & Fang, S.-M. 2012 Modulation of Homochiral DyIIIComplexes: Single-Molecule Magnets with Ferroelectric Properties. Chemistry - A European Journal 18, 14632–14637. (doi:10.1002/chem.201201190)"
+2012_34,[Tb(hfac)3(EtVNIT)2],Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,848263.cif,Proper,Triangular dodecahedron,0.088,-0.6,1.015018,2012,2012,10.1080/00958972.2012.705281,"Wang, C., Wang, Y.-L., Ma, Y., Wang, Q.-L., Li, L.-C. & Liao, D.-Z. 2012 Two new lanthanide–radical complexes: synthesis, structure, and magnetic properties. Journal of Coordination Chemistry 65, 2830–2838. (doi:10.1080/00958972.2012.705281)"
+2012_34,[Dy(hfac)3(EtVNIT)2],Radical,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,848259.cif,Proper,Triangular dodecahedron,0.104,-0.5,1.0125125,2012,2012,10.1080/00958972.2012.705281,"Wang, C., Wang, Y.-L., Ma, Y., Wang, Q.-L., Li, L.-C. & Liao, D.-Z. 2012 Two new lanthanide–radical complexes: synthesis, structure, and magnetic properties. Journal of Coordination Chemistry 65, 2830–2838. (doi:10.1080/00958972.2012.705281)"
+2012_36,[Tb(Pc*)2][TBA],LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2012,2012,10.1039/c2dt31171b,"Gonidec, M., Amabilino, D. B. & Veciana, J. 2012 Novel double-decker phthalocyaninato terbium(iii) single molecule magnets with stabilised redox states. Dalton Transactions 41, 13632. (doi:10.1039/c2dt31171b)"
+2012_36,[Tb(Pc*)2][TBA],LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2012,2012,10.1039/c2dt31171b,"Gonidec, M., Amabilino, D. B. & Veciana, J. 2012 Novel double-decker phthalocyaninato terbium(iii) single molecule magnets with stabilised redox states. Dalton Transactions 41, 13632. (doi:10.1039/c2dt31171b)"
+2012_36,[Tb(Pc*)2][TBA],LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2012,2012,10.1039/c2dt31171b,"Gonidec, M., Amabilino, D. B. & Veciana, J. 2012 Novel double-decker phthalocyaninato terbium(iii) single molecule magnets with stabilised redox states. Dalton Transactions 41, 13632. (doi:10.1039/c2dt31171b)"
+2012_38,[Nd(H2-DSNDA)0.5(DSNDA)0.5(H2O)5]n,Other Families,,Nd3+,Oblate,Kramers,100.0,9.0,8.0,4328384.cif,Proper,Spherical capped square antiprism,1.297,-0.7000000000000001,1.0175245,2012,2012,10.1021/ic2023727,"Liu, Q.-Y., Wang, W.-F., Wang, Y.-L., Shan, Z.-M., Wang, M.-S. & Tang, J. 2012 Diversity of Lanthanide(III)–Organic Extended Frameworks with a 4,8-Disulfonyl-2,6-naphthalenedicarboxylic Acid Ligand: Syntheses, Structures, and Magnetic and Luminescent Properties. Inorganic Chemistry 51, 2381–2392. (doi:10.1021/ic2023727)"
+2012_38,[Sm(H2-DSNDA)0.5(DSNDA)0.5(H2O)5]n,Other Families,,Sm3+,Prolate,Kramers,100.0,9.0,8.0,4328385.cif,Proper,Spherical capped square antiprism,1.25,-0.7000000000000001,1.0175245,2012,2012,10.1021/ic2023727,"Liu, Q.-Y., Wang, W.-F., Wang, Y.-L., Shan, Z.-M., Wang, M.-S. & Tang, J. 2012 Diversity of Lanthanide(III)–Organic Extended Frameworks with a 4,8-Disulfonyl-2,6-naphthalenedicarboxylic Acid Ligand: Syntheses, Structures, and Magnetic and Luminescent Properties. Inorganic Chemistry 51, 2381–2392. (doi:10.1021/ic2023727)"
+2012_38,[Gd(H2-DSNDA)0.5(DSNDA)0.5(H2O)5]n,Other Families,,Gd3+,Isotropic,Kramers,100.0,9.0,8.0,,Proper,,,,,2012,2012,10.1021/ic2023727,"Liu, Q.-Y., Wang, W.-F., Wang, Y.-L., Shan, Z.-M., Wang, M.-S. & Tang, J. 2012 Diversity of Lanthanide(III)–Organic Extended Frameworks with a 4,8-Disulfonyl-2,6-naphthalenedicarboxylic Acid Ligand: Syntheses, Structures, and Magnetic and Luminescent Properties. Inorganic Chemistry 51, 2381–2392. (doi:10.1021/ic2023727)"
+2012_38,[Dy(H2-DSNDA)0.5(DSNDA)0.5(H2O)5]n,Other Families,,Dy3+,Oblate,Kramers,100.0,9.0,8.0,4328388.cif,Proper,Spherical capped square antiprism,1.185,-0.6,1.015018,2012,2012,10.1021/ic2023727,"Liu, Q.-Y., Wang, W.-F., Wang, Y.-L., Shan, Z.-M., Wang, M.-S. & Tang, J. 2012 Diversity of Lanthanide(III)–Organic Extended Frameworks with a 4,8-Disulfonyl-2,6-naphthalenedicarboxylic Acid Ligand: Syntheses, Structures, and Magnetic and Luminescent Properties. Inorganic Chemistry 51, 2381–2392. (doi:10.1021/ic2023727)"
+2012_41,[TbP5W30O110]12−,POM,,Tb3+,Oblate,Non-Kramers,100.0,,2.0,,,,,,,2012,2012,10.1021/ja305163t,"Cardona-Serra, S., Clemente-Juan, J. M., Coronado, E., Gaita-Ariño, A., Camón, A., Evangelisti, M., Luis, F., Martínez-Pérez, M. J. & Sesé, J. 2012 Lanthanoid Single-Ion Magnets Based on Polyoxometalates with a 5-fold Symmetry: The Series [LnP5W30O110]12– (Ln3+ = Tb, Dy, Ho, Er, Tm, and Yb). Journal of the American Chemical Society 134, 14982–14990. (doi:10.1021/ja305163t)"
+2012_41,[DyP5W30O110]12−,POM,,Dy3+,Oblate,Kramers,100.0,,2.0,,,,,,,2012,2012,10.1021/ja305163t,"Cardona-Serra, S., Clemente-Juan, J. M., Coronado, E., Gaita-Ariño, A., Camón, A., Evangelisti, M., Luis, F., Martínez-Pérez, M. J. & Sesé, J. 2012 Lanthanoid Single-Ion Magnets Based on Polyoxometalates with a 5-fold Symmetry: The Series [LnP5W30O110]12– (Ln3+ = Tb, Dy, Ho, Er, Tm, and Yb). Journal of the American Chemical Society 134, 14982–14990. (doi:10.1021/ja305163t)"
+2012_41,[HoP5W30O110]12−,POM,,Ho3+,Oblate,Non-Kramers,100.0,,2.0,,,,,,,2012,2012,10.1021/ja305163t,"Cardona-Serra, S., Clemente-Juan, J. M., Coronado, E., Gaita-Ariño, A., Camón, A., Evangelisti, M., Luis, F., Martínez-Pérez, M. J. & Sesé, J. 2012 Lanthanoid Single-Ion Magnets Based on Polyoxometalates with a 5-fold Symmetry: The Series [LnP5W30O110]12– (Ln3+ = Tb, Dy, Ho, Er, Tm, and Yb). Journal of the American Chemical Society 134, 14982–14990. (doi:10.1021/ja305163t)"
+2012_41,[ErP5W30O110]12−,POM,,Er3+,Prolate,Kramers,100.0,,2.0,,,,,,,2012,2012,10.1021/ja305163t,"Cardona-Serra, S., Clemente-Juan, J. M., Coronado, E., Gaita-Ariño, A., Camón, A., Evangelisti, M., Luis, F., Martínez-Pérez, M. J. & Sesé, J. 2012 Lanthanoid Single-Ion Magnets Based on Polyoxometalates with a 5-fold Symmetry: The Series [LnP5W30O110]12– (Ln3+ = Tb, Dy, Ho, Er, Tm, and Yb). Journal of the American Chemical Society 134, 14982–14990. (doi:10.1021/ja305163t)"
+2012_41,[TmP5W30O110]12−,POM,,Tm3+,Prolate,Non-Kramers,100.0,,2.0,,,,,,,2012,2012,10.1021/ja305163t,"Cardona-Serra, S., Clemente-Juan, J. M., Coronado, E., Gaita-Ariño, A., Camón, A., Evangelisti, M., Luis, F., Martínez-Pérez, M. J. & Sesé, J. 2012 Lanthanoid Single-Ion Magnets Based on Polyoxometalates with a 5-fold Symmetry: The Series [LnP5W30O110]12– (Ln3+ = Tb, Dy, Ho, Er, Tm, and Yb). Journal of the American Chemical Society 134, 14982–14990. (doi:10.1021/ja305163t)"
+2012_41,[YbP5W30O110]12−,POM,,Yb3+,Prolate,Kramers,100.0,,2.0,,,,,,,2012,2012,10.1021/ja305163t,"Cardona-Serra, S., Clemente-Juan, J. M., Coronado, E., Gaita-Ariño, A., Camón, A., Evangelisti, M., Luis, F., Martínez-Pérez, M. J. & Sesé, J. 2012 Lanthanoid Single-Ion Magnets Based on Polyoxometalates with a 5-fold Symmetry: The Series [LnP5W30O110]12– (Ln3+ = Tb, Dy, Ho, Er, Tm, and Yb). Journal of the American Chemical Society 134, 14982–14990. (doi:10.1021/ja305163t)"
+2013_1,Na[TbDOTA(H2O)]·4H2O,Other Families,100000.0,Tb3+,Oblate,Non-Kramers,100.0,9.0,2.0,,,,,,,2013,2013,10.1002/anie.201205938,"Boulon, M.-E., Cucinotta, G., Luzon, J., Degl’Innocenti, C., Perfetti, M., Bernot, K., Calvez, G., Caneschi, A. & Sessoli, R. 2012 Magnetic Anisotropy and Spin-Parity Effect Along the Series of Lanthanide Complexes with DOTA. Angewandte Chemie International Edition 52, 350–354. (doi:10.1002/anie.201205938)"
+2013_1,Na[TbDOTA(H2O)]·4H2O,Other Families,100000.0,Tb3+,Oblate,Non-Kramers,10.0,9.0,2.0,,,,,,,2013,2013,10.1002/anie.201205938,"Boulon, M.-E., Cucinotta, G., Luzon, J., Degl’Innocenti, C., Perfetti, M., Bernot, K., Calvez, G., Caneschi, A. & Sessoli, R. 2012 Magnetic Anisotropy and Spin-Parity Effect Along the Series of Lanthanide Complexes with DOTA. Angewandte Chemie International Edition 52, 350–354. (doi:10.1002/anie.201205938)"
+2013_1,Na[HoDOTA(H2O)]·4H2O,Other Families,100000.0,Ho3+,Oblate,Non-Kramers,100.0,9.0,2.0,,,,,,,2013,2013,10.1002/anie.201205938,"Boulon, M.-E., Cucinotta, G., Luzon, J., Degl’Innocenti, C., Perfetti, M., Bernot, K., Calvez, G., Caneschi, A. & Sessoli, R. 2012 Magnetic Anisotropy and Spin-Parity Effect Along the Series of Lanthanide Complexes with DOTA. Angewandte Chemie International Edition 52, 350–354. (doi:10.1002/anie.201205938)"
+2013_1,Na[ErDOTA(H2O)]·4H2O,Other Families,100000.0,Er3+,Prolate,Kramers,100.0,9.0,2.0,,,,,,,2013,2013,10.1002/anie.201205938,"Boulon, M.-E., Cucinotta, G., Luzon, J., Degl’Innocenti, C., Perfetti, M., Bernot, K., Calvez, G., Caneschi, A. & Sessoli, R. 2012 Magnetic Anisotropy and Spin-Parity Effect Along the Series of Lanthanide Complexes with DOTA. Angewandte Chemie International Edition 52, 350–354. (doi:10.1002/anie.201205938)"
+2013_1,Na[TmDOTA(H2O)]·4H2O,Other Families,100000.0,Tm3+,Prolate,Non-Kramers,100.0,9.0,2.0,,,,,,,2013,2013,10.1002/anie.201205938,"Boulon, M.-E., Cucinotta, G., Luzon, J., Degl’Innocenti, C., Perfetti, M., Bernot, K., Calvez, G., Caneschi, A. & Sessoli, R. 2012 Magnetic Anisotropy and Spin-Parity Effect Along the Series of Lanthanide Complexes with DOTA. Angewandte Chemie International Edition 52, 350–354. (doi:10.1002/anie.201205938)"
+2013_1,Na[YbDOTA(H2O)]·4H2O,Other Families,100000.0,Yb3+,Prolate,Kramers,100.0,9.0,2.0,,,,,,,2013,2013,10.1002/anie.201205938,"Boulon, M.-E., Cucinotta, G., Luzon, J., Degl’Innocenti, C., Perfetti, M., Bernot, K., Calvez, G., Caneschi, A. & Sessoli, R. 2012 Magnetic Anisotropy and Spin-Parity Effect Along the Series of Lanthanide Complexes with DOTA. Angewandte Chemie International Edition 52, 350–354. (doi:10.1002/anie.201205938)"
+2013_2,[Ag42{Ho(W5O18)2}(t-BuCC)28Cl4]OH,POM,,Ho3+,Oblate,Non-Kramers,100.0,8.0,8.0,7109147.cif,Proper,Square antiprism,0.021,1.0,0.97505,2013,2013,10.1039/c3cc41237g,"Li, Y.-Y., Gao, F., Beves, J. E., Li, Y.-Z. & Zuo, J.-L. 2013 A giant metallo-supramolecular cage encapsulating a single-molecule magnet. Chemical Communications 49, 3658. (doi:10.1039/c3cc41237g)"
+2013_4,[Gd(paaH*)2(H2O)4][Cl]3·2H2O,Diketonate,,Gd3+,Isotropic,Kramers,100.0,8.0,6.0,,Proper,,,,,2013,2013,10.1039/c3sc22300k,"Chilton, N. F., Langley, S. K., Moubaraki, B., Soncini, A., Batten, S. R. & Murray, K. S. 2013 Single molecule magnetism in a family of mononuclear β-diketonate lanthanide(iii) complexes: rationalization of magnetic anisotropy in complexes of low symmetry. Chemical Science 4, 1719. (doi:10.1039/c3sc22300k)"
+2013_4,[Tb(paaH*)2(H2O)4][Cl]3·2H2O,Diketonate,,Tb3+,Oblate,Non-Kramers,100.0,8.0,6.0,1514457.cif,Proper,Triangular dodecahedron,0.348,0.5,0.9875125,2013,2013,10.1039/c3sc22300k,"Chilton, N. F., Langley, S. K., Moubaraki, B., Soncini, A., Batten, S. R. & Murray, K. S. 2013 Single molecule magnetism in a family of mononuclear β-diketonate lanthanide(iii) complexes: rationalization of magnetic anisotropy in complexes of low symmetry. Chemical Science 4, 1719. (doi:10.1039/c3sc22300k)"
+2013_4,[Dy(paaH*)2(H2O)4][Cl]3·2H2O,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,6.0,1514458.cif,Proper,Triangular dodecahedron,0.341,0.4,0.990008,2013,2013,10.1039/c3sc22300k,"Chilton, N. F., Langley, S. K., Moubaraki, B., Soncini, A., Batten, S. R. & Murray, K. S. 2013 Single molecule magnetism in a family of mononuclear β-diketonate lanthanide(iii) complexes: rationalization of magnetic anisotropy in complexes of low symmetry. Chemical Science 4, 1719. (doi:10.1039/c3sc22300k)"
+2013_4,[Dy(paaH*)2(H2O)4][Cl]3·2H2O,Diketonate,,Dy3+,Oblate,Kramers,5.0,8.0,6.0,,Isostructural,,,,,2013,2013,10.1039/c3sc22300k,"Chilton, N. F., Langley, S. K., Moubaraki, B., Soncini, A., Batten, S. R. & Murray, K. S. 2013 Single molecule magnetism in a family of mononuclear β-diketonate lanthanide(iii) complexes: rationalization of magnetic anisotropy in complexes of low symmetry. Chemical Science 4, 1719. (doi:10.1039/c3sc22300k)"
+2013_4,[Ho(paaH*)2(H2O)4][Cl]3·2H2O,Diketonate,,Ho3+,Oblate,Non-Kramers,100.0,8.0,6.0,1514459.cif,Proper,Triangular dodecahedron,0.332,0.3,0.9925045,2013,2013,10.1039/c3sc22300k,"Chilton, N. F., Langley, S. K., Moubaraki, B., Soncini, A., Batten, S. R. & Murray, K. S. 2013 Single molecule magnetism in a family of mononuclear β-diketonate lanthanide(iii) complexes: rationalization of magnetic anisotropy in complexes of low symmetry. Chemical Science 4, 1719. (doi:10.1039/c3sc22300k)"
+2013_4,[Er(paaH*)2(H2O)4][Cl]3·2H2O,Diketonate,,Er3+,Prolate,Kramers,100.0,8.0,6.0,1514460.cif,Proper,Triangular dodecahedron,0.292,0.3,0.9925045,2013,2013,10.1039/c3sc22300k,"Chilton, N. F., Langley, S. K., Moubaraki, B., Soncini, A., Batten, S. R. & Murray, K. S. 2013 Single molecule magnetism in a family of mononuclear β-diketonate lanthanide(iii) complexes: rationalization of magnetic anisotropy in complexes of low symmetry. Chemical Science 4, 1719. (doi:10.1039/c3sc22300k)"
+2013_4,[Tb(paaH*)2(NO3)2(MeOH)][NO3],Diketonate,,Tb3+,Oblate,Non-Kramers,100.0,9.0,5.0,1514462.cif,Proper,Spherical capped square antiprism,1.589,-1.7,1.0426445,2013,2013,10.1039/c3sc22300k,"Chilton, N. F., Langley, S. K., Moubaraki, B., Soncini, A., Batten, S. R. & Murray, K. S. 2013 Single molecule magnetism in a family of mononuclear β-diketonate lanthanide(iii) complexes: rationalization of magnetic anisotropy in complexes of low symmetry. Chemical Science 4, 1719. (doi:10.1039/c3sc22300k)"
+2013_4,[Dy(paaH*)2(NO3)2(MeOH)][NO3],Diketonate,,Dy3+,Oblate,Kramers,100.0,9.0,5.0,1514463.cif,Proper,Spherical capped square antiprism,1.574,-1.9,1.0476805,2013,2013,10.1039/c3sc22300k,"Chilton, N. F., Langley, S. K., Moubaraki, B., Soncini, A., Batten, S. R. & Murray, K. S. 2013 Single molecule magnetism in a family of mononuclear β-diketonate lanthanide(iii) complexes: rationalization of magnetic anisotropy in complexes of low symmetry. Chemical Science 4, 1719. (doi:10.1039/c3sc22300k)"
+2013_4,[Ho(paaH*)2(NO3)2(MeOH)][NO3],Diketonate,,Ho3+,Oblate,Non-Kramers,100.0,9.0,5.0,1514464.cif,Proper,Muffin,1.491,0.7000000000000001,0.9825245,2013,2013,10.1039/c3sc22300k,"Chilton, N. F., Langley, S. K., Moubaraki, B., Soncini, A., Batten, S. R. & Murray, K. S. 2013 Single molecule magnetism in a family of mononuclear β-diketonate lanthanide(iii) complexes: rationalization of magnetic anisotropy in complexes of low symmetry. Chemical Science 4, 1719. (doi:10.1039/c3sc22300k)"
+2013_4,[Er(paaH*)2(NO3)2(MeOH)][NO3],Diketonate,,Er3+,Prolate,Kramers,100.0,9.0,5.0,1514455.cif,Proper,Spherical capped square antiprism,1.489,-2.1,1.0527205,2013,2013,10.1039/c3sc22300k,"Chilton, N. F., Langley, S. K., Moubaraki, B., Soncini, A., Batten, S. R. & Murray, K. S. 2013 Single molecule magnetism in a family of mononuclear β-diketonate lanthanide(iii) complexes: rationalization of magnetic anisotropy in complexes of low symmetry. Chemical Science 4, 1719. (doi:10.1039/c3sc22300k)"
+2013_5,[Zn2DyL2(MeOH)]NO3·3MeOH·H2O,TM near Ln,,Dy3+,Oblate,Kramers,100.0,7.0,3.0,924441.cif,Proper,Pentagonal bipyramid,1.416,3.8,0.905722,2013,2013,10.1039/c3sc50843a,"Liu, J.-L., Chen, Y.-C., Zheng, Y.-Z., Lin, W.-Q., Ungur, L., Wernsdorfer, W., Chibotaru, L. F. & Tong, M.-L. 2013 Switching the anisotropy barrier of a single-ion magnet by symmetry change from quasi-D5h to quasi-Oh. Chemical Science 4, 3310. (doi:10.1039/c3sc50843a)"
+2013_5,[Zn2DyL2]NO3·H2O,TM near Ln,,Dy3+,Oblate,Kramers,100.0,6.0,2.0,924442.cif,Proper,Octahedron,1.878,-1.0,1.02505,2013,2013,10.1039/c3sc50843a,"Liu, J.-L., Chen, Y.-C., Zheng, Y.-Z., Lin, W.-Q., Ungur, L., Wernsdorfer, W., Chibotaru, L. F. & Tong, M.-L. 2013 Switching the anisotropy barrier of a single-ion magnet by symmetry change from quasi-D5h to quasi-Oh. Chemical Science 4, 3310. (doi:10.1039/c3sc50843a)"
+2013_6,[Dy4(H2L)4(H2O)8⊂2DMF]Cl2(N3)2·3DMF·5MeOH·3H2O,Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7021289.cif,Proper,Triangular dodecahedron,1.643,-2.1,1.0527205,2013,2013,10.1039/c3dt50265a,"Wu, S.-Q., Xie, Q.-W., An, G.-Y., Chen, X., Liu, C.-M., Cui, A.-L. & Kou, H.-Z. 2013 Supramolecular lanthanide metallogrids exhibiting field-induced single-ion magnetic behavior. Dalton Transactions 42, 4369. (doi:10.1039/c3dt50265a)"
+2013_6,[Tb4(H2L)4(H2O)8⊂2DMF]Cl2(N3)2·3DMF·7MeOH·3H2O,Schiff Base,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,7021290.cif,Proper,Biaugmented trigonal prism,1.754,-3.1,1.0779805,2013,2013,10.1039/c3dt50265a,"Wu, S.-Q., Xie, Q.-W., An, G.-Y., Chen, X., Liu, C.-M., Cui, A.-L. & Kou, H.-Z. 2013 Supramolecular lanthanide metallogrids exhibiting field-induced single-ion magnetic behavior. Dalton Transactions 42, 4369. (doi:10.1039/c3dt50265a)"
+2013_7,[Dy(L6-2H)(NO3)2(DMF)2](DMF),Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,6.0,7022668.cif,Proper,Muffin,2.234,0.3,0.9925045,2013,2013,10.1039/c3dt32732a,"Anwar, M. U., Dawe, L. N., Tandon, S. S., Bunge, S. D. & Thompson, L. K. 2013 Polynuclear lanthanide (Ln) complexes of a tri-functional hydrazone ligand – mononuclear (Dy), dinuclear (Yb, Tm), tetranuclear (Gd), and hexanuclear (Gd, Dy, Tb) examples. Dalton Transactions 42, 7781. (doi:10.1039/c3dt32732a)"
+2013_8,{[Dy(α-C4H3OCOO)(μ-(α-C4H3OCOO))2(H2O)3]}n,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,7.0,837437.cif,Proper,Triangular dodecahedron,0.796,0.2,0.995002,2013,2013,10.1039/c3dt51080h,"Bartolomé, E., Bartolomé, J., Melnic, S., Prodius, D., Shova, S., Arauzo, A., Luzón, J., Luis, F. & Turta, C. 2013 {Dy(α-fur)3}n: from double relaxation single-ion magnet behavior to 3D ordering. Dalton Transactions 42, 10153. (doi:10.1039/c3dt51080h)"
+2013_8,{[Dy(α-C4H3OCOO)(μ-(α-C4H3OCOO))2(H2O)3]}n,Other Families,0.0,Dy3+,Oblate,Kramers,10.0,8.0,7.0,,Isostructural,,,,,2013,2013,10.1039/c3dt51080h,"Bartolomé, E., Bartolomé, J., Melnic, S., Prodius, D., Shova, S., Arauzo, A., Luzón, J., Luis, F. & Turta, C. 2013 {Dy(α-fur)3}n: from double relaxation single-ion magnet behavior to 3D ordering. Dalton Transactions 42, 10153. (doi:10.1039/c3dt51080h)"
+2013_8,{[Dy(α-C4H3OCOO)(μ-(α-C4H3OCOO))2(H2O)3]}n,Other Families,0.0,Dy3+,Oblate,Kramers,5.0,8.0,7.0,,Isostructural,,,,,2013,2013,10.1039/c3dt51080h,"Bartolomé, E., Bartolomé, J., Melnic, S., Prodius, D., Shova, S., Arauzo, A., Luzón, J., Luis, F. & Turta, C. 2013 {Dy(α-fur)3}n: from double relaxation single-ion magnet behavior to 3D ordering. Dalton Transactions 42, 10153. (doi:10.1039/c3dt51080h)"
+2013_9,(HNEt3)[Dy(bpyda)2]·3H2O,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,922760.cif,Proper,Others,2.625,,,2013,2013,10.1039/c3dt51220g,"Li, Q.-W., Liu, J.-L., Jia, J.-H., Leng, J.-D., Lin, W.-Q., Chen, Y.-C. & Tong, M.-L. 2013 Fluorescent single-ion magnets: molecular hybrid (HNEt3)[DyxYb1−x(bpyda)2] (x = 0.135–1). Dalton Transactions 42, 11262. (doi:10.1039/c3dt51220g)"
+2013_9,(HNEt3)[Yb(bpyda)2]·3H2O,Other Families,,Yb3+,Prolate,Kramers,100.0,8.0,2.0,922761.cif,Proper,Triangular dodecahedron,2.238,0.0,1.0,2013,2013,10.1039/c3dt51220g,"Li, Q.-W., Liu, J.-L., Jia, J.-H., Leng, J.-D., Lin, W.-Q., Chen, Y.-C. & Tong, M.-L. 2013 Fluorescent single-ion magnets: molecular hybrid (HNEt3)[DyxYb1−x(bpyda)2] (x = 0.135–1). Dalton Transactions 42, 11262. (doi:10.1039/c3dt51220g)"
+2013_10,[Dy(hfac)3(depma)(H2O)],Mixed Ligands,10001.0,Dy3+,Oblate,Kramers,100.0,8.0,5.0,7021769.cif,Proper,Triangular dodecahedron,0.373,1.6,0.960128,2013,2013,10.1039/c3dt51176f,"Cao, D.-K., Gu, Y.-W., Feng, J.-Q., Cai, Z.-S. & Ward, M. D. 2013 Mononuclear lanthanide complexes incorporating an anthracene group: structural modification, slow magnetic relaxation and multicomponent fluorescence emissions in Dy compounds. Dalton Transactions 42, 11436. (doi:10.1039/c3dt51176f)"
+2013_10,[Gd(hfac)3(depma)(H2O)],Mixed Ligands,10001.0,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,Proper,,,,,2013,2013,10.1039/c3dt51176f,"Cao, D.-K., Gu, Y.-W., Feng, J.-Q., Cai, Z.-S. & Ward, M. D. 2013 Mononuclear lanthanide complexes incorporating an anthracene group: structural modification, slow magnetic relaxation and multicomponent fluorescence emissions in Dy compounds. Dalton Transactions 42, 11436. (doi:10.1039/c3dt51176f)"
+2013_10,[Dy(hfac)3(depma)2]2·H2O,Mixed Ligands,10001.0,Dy3+,Oblate,Kramers,100.0,8.0,5.0,7021771.cif,Proper,Square antiprism,0.424,-3.3,1.0830445,2013,2013,10.1039/c3dt51176f,"Cao, D.-K., Gu, Y.-W., Feng, J.-Q., Cai, Z.-S. & Ward, M. D. 2013 Mononuclear lanthanide complexes incorporating an anthracene group: structural modification, slow magnetic relaxation and multicomponent fluorescence emissions in Dy compounds. Dalton Transactions 42, 11436. (doi:10.1039/c3dt51176f)"
+2013_10,[Gd(hfac)3(depma)2]·2H2O,Mixed Ligands,10001.0,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,Proper,,,,,2013,2013,10.1039/c3dt51176f,"Cao, D.-K., Gu, Y.-W., Feng, J.-Q., Cai, Z.-S. & Ward, M. D. 2013 Mononuclear lanthanide complexes incorporating an anthracene group: structural modification, slow magnetic relaxation and multicomponent fluorescence emissions in Dy compounds. Dalton Transactions 42, 11436. (doi:10.1039/c3dt51176f)"
+2013_11,[Li(THF)4][(Ph2PNPh)4Dy],Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7021730.cif,Proper,Others,13.095,,,2013,2013,10.1039/c3dt51078f,"Völcker, F., Lan, Y., Powell, A. K. & Roesky, P. W. 2013 Slow magnetic relaxation in tris(diphosphanylamido) and tetra(phosphanoamido) dysprosium complexes. Dalton Transactions 42, 11471. (doi:10.1039/c3dt51078f)"
+2013_11,[Dy{N(PPh2)2}3],Other Families,,Dy3+,Oblate,Kramers,100.0,6.0,3.0,259287.cif,Proper,Others,13.656,,,2013,2013,10.1039/c3dt51078f,"Völcker, F., Lan, Y., Powell, A. K. & Roesky, P. W. 2013 Slow magnetic relaxation in tris(diphosphanylamido) and tetra(phosphanoamido) dysprosium complexes. Dalton Transactions 42, 11471. (doi:10.1039/c3dt51078f)"
+2013_12,Me4N[DyIII(HL)4]·2CH3CN,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4334797.cif,Proper,Triangular dodecahedron,1.389,3.6,0.910648,2013,2013,10.1021/ic4005517,"Fortea-Pérez, F. R., Vallejo, J., Julve, M., Lloret, F., De Munno, G., Armentano, D. & Pardo, E. 2013 Slow Magnetic Relaxation in a Hydrogen-Bonded 2D Array of Mononuclear Dysprosium(III) Oxamates. Inorganic Chemistry 52, 4777–4779. (doi:10.1021/ic4005517)"
+2013_13,"DyIII−N,N′-bis-pyridin-2-yl-methelene-1,8-diamino-3,6-dioxaoctane",Schiff Base,,Dy3+,Oblate,Kramers,100.0,,3.0,4334669.cif,Proper,Others,12.84,,,2013,2013,10.1021/ic400098c,"Campbell, V. E., Guillot, R., Riviere, E., Brun, P.-T., Wernsdorfer, W. & Mallah, T. 2013 Subcomponent Self-Assembly of Rare-Earth Single-Molecule Magnets. Inorganic Chemistry 52, 5194–5200. (doi:10.1021/ic400098c)"
+2013_13,"TbIII−N,N′-bis-pyridin-2-yl-methelene-1,8-diamino-3,6-dioxaoctane",Schiff Base,,Tb3+,Oblate,Non-Kramers,100.0,,3.0,4334670.cif,Proper,Others,7.837,,,2013,2013,10.1021/ic400098c,"Campbell, V. E., Guillot, R., Riviere, E., Brun, P.-T., Wernsdorfer, W. & Mallah, T. 2013 Subcomponent Self-Assembly of Rare-Earth Single-Molecule Magnets. Inorganic Chemistry 52, 5194–5200. (doi:10.1021/ic400098c)"
+2013_13,"HoIII−N,N′-bis-pyridin-2-yl-methelene-1,8-diamino-3,6-dioxaoctane",Schiff Base,,Ho3+,Oblate,Non-Kramers,100.0,,3.0,4334671.cif,Proper,Others,12.827,,,2013,2013,10.1021/ic400098c,"Campbell, V. E., Guillot, R., Riviere, E., Brun, P.-T., Wernsdorfer, W. & Mallah, T. 2013 Subcomponent Self-Assembly of Rare-Earth Single-Molecule Magnets. Inorganic Chemistry 52, 5194–5200. (doi:10.1021/ic400098c)"
+2013_13,"ErIII−N,N′-bis-pyridin-2-yl-methelene-1,8-diamino-3,6-dioxaoctane",Schiff Base,,Er3+,Prolate,Kramers,100.0,,3.0,4334672.cif,Proper,Others,12.837,,,2013,2013,10.1021/ic400098c,"Campbell, V. E., Guillot, R., Riviere, E., Brun, P.-T., Wernsdorfer, W. & Mallah, T. 2013 Subcomponent Self-Assembly of Rare-Earth Single-Molecule Magnets. Inorganic Chemistry 52, 5194–5200. (doi:10.1021/ic400098c)"
+2013_14,[DyIII(COT″)2]Li(DME)3,Metallocene,,Dy3+,Oblate,Kramers,100.0,2.0,2.0,4119398.cif,Proper,,,,,2013,2013,10.1021/ja310642h,"Le Roy, J. J., Jeletic, M., Gorelsky, S. I., Korobkov, I., Ungur, L., Chibotaru, L. F. & Murugesu, M. 2013 An Organometallic Building Block Approach To Produce a Multidecker 4f Single-Molecule Magnet. Journal of the American Chemical Society 135, 3502–3510. (doi:10.1021/ja310642h)"
+2013_16,(TBA)2[Gd(V12O32(Cl))(H2O)2(CH3CN)2],POM,,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,Proper,,,,,2013,2013,10.1039/c3cc40912k,"Cameron, J. M., Newton, G. N., Busche, C., Long, D.-L., Oshio, H. & Cronin, L. 2013 Synthesis and characterisation of a lanthanide-capped dodecavanadate cage. Chemical Communications 49, 3395. (doi:10.1039/c3cc40912k)"
+2013_16,(TBA)2[Tb(V12O32(Cl))(H2O)2(CH3CN)2],POM,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,,Isostructural,,,,,2013,2013,10.1039/c3cc40912k,"Cameron, J. M., Newton, G. N., Busche, C., Long, D.-L., Oshio, H. & Cronin, L. 2013 Synthesis and characterisation of a lanthanide-capped dodecavanadate cage. Chemical Communications 49, 3395. (doi:10.1039/c3cc40912k)"
+2013_16,(TBA)2[Dy(V12O32(Cl))(H2O)2(CH3CN)2],POM,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,,Isostructural,,,,,2013,2013,10.1039/c3cc40912k,"Cameron, J. M., Newton, G. N., Busche, C., Long, D.-L., Oshio, H. & Cronin, L. 2013 Synthesis and characterisation of a lanthanide-capped dodecavanadate cage. Chemical Communications 49, 3395. (doi:10.1039/c3cc40912k)"
+2013_16,(TBA)2[Ho(V12O32(Cl))(H2O)2(CH3CN)2],POM,,Ho3+,Oblate,Non-Kramers,100.0,8.0,5.0,,Isostructural,,,,,2013,2013,10.1039/c3cc40912k,"Cameron, J. M., Newton, G. N., Busche, C., Long, D.-L., Oshio, H. & Cronin, L. 2013 Synthesis and characterisation of a lanthanide-capped dodecavanadate cage. Chemical Communications 49, 3395. (doi:10.1039/c3cc40912k)"
+2013_16,(TBA)2[Er(V12O32(Cl))(H2O)2(CH3CN)2],POM,,Er3+,Prolate,Kramers,100.0,8.0,5.0,,Isostructural,,,,,2013,2013,10.1039/c3cc40912k,"Cameron, J. M., Newton, G. N., Busche, C., Long, D.-L., Oshio, H. & Cronin, L. 2013 Synthesis and characterisation of a lanthanide-capped dodecavanadate cage. Chemical Communications 49, 3395. (doi:10.1039/c3cc40912k)"
+2013_17,[Dy(hfac)3(L1)],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,921418.cif,Proper,Triangular dodecahedron,1.185,2.9,0.9279205,2013,2013,10.1002/chem.201300397,"Cosquer, G., Pointillart, F., Golhen, S., Cador, O. & Ouahab, L. 2013 Slow Magnetic Relaxation in Condensed versus Dispersed Dysprosium(III) Mononuclear Complexes. Chemistry - A European Journal 19, 7895–7903. (doi:10.1002/chem.201300397)"
+2013_17,[Dy(hfac)3(L2)],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,921419.cif,Proper,Triangular dodecahedron,1.143,0.1,0.9975005,2013,2013,10.1002/chem.201300397,"Cosquer, G., Pointillart, F., Golhen, S., Cador, O. & Ouahab, L. 2013 Slow Magnetic Relaxation in Condensed versus Dispersed Dysprosium(III) Mononuclear Complexes. Chemistry - A European Journal 19, 7895–7903. (doi:10.1002/chem.201300397)"
+2013_17,[(L2)Y0.93Dy0.07(hfac)3]2,Diketonate,,Dy3+,Oblate,Kramers,7.0,8.0,4.0,,Isostructural,,,,,2013,2013,10.1002/chem.201300397,"Cosquer, G., Pointillart, F., Golhen, S., Cador, O. & Ouahab, L. 2013 Slow Magnetic Relaxation in Condensed versus Dispersed Dysprosium(III) Mononuclear Complexes. Chemistry - A European Journal 19, 7895–7903. (doi:10.1002/chem.201300397)"
+2013_19,[Sm(pqc)(Hpqc)(NO3)2]n,Other Families,100000.0,Sm3+,Prolate,Kramers,100.0,8.0,6.0,,Isostructural,,,,,2013,2013,10.1021/cg401391b,"Xu, W., Zhou, Y., Huang, D., Xiong, W., Su, M., Wang, K., Han, S. & Hong, M. 2013 Crystal Structure, Multiplex Photoluminescence, and Magnetic Properties of a Series of Lanthanide Coordination Polymers Based on Quinoline Carboxylate Ligand. Crystal Growth & Design 13, 5420–5432. (doi:10.1021/cg401391b)"
+2013_19,[Gd(pqc)(Hpqc)(NO3)2]n,Other Families,100000.0,Gd3+,Isotropic,Kramers,100.0,8.0,6.0,,Proper,,,,,2013,2013,10.1021/cg401391b,"Xu, W., Zhou, Y., Huang, D., Xiong, W., Su, M., Wang, K., Han, S. & Hong, M. 2013 Crystal Structure, Multiplex Photoluminescence, and Magnetic Properties of a Series of Lanthanide Coordination Polymers Based on Quinoline Carboxylate Ligand. Crystal Growth & Design 13, 5420–5432. (doi:10.1021/cg401391b)"
+2013_19,[Tb(pqc)(Hpqc)(NO3)2]n,Other Families,100000.0,Tb3+,Oblate,Non-Kramers,100.0,8.0,6.0,4508567.cif,Proper,Others,2.973,,,2013,2013,10.1021/cg401391b,"Xu, W., Zhou, Y., Huang, D., Xiong, W., Su, M., Wang, K., Han, S. & Hong, M. 2013 Crystal Structure, Multiplex Photoluminescence, and Magnetic Properties of a Series of Lanthanide Coordination Polymers Based on Quinoline Carboxylate Ligand. Crystal Growth & Design 13, 5420–5432. (doi:10.1021/cg401391b)"
+2013_19,[Dy(pqc)(Hpqc)(NO3)2]n,Other Families,100000.0,Dy3+,Oblate,Kramers,100.0,8.0,6.0,4508568.cif,Proper,Others,2.889,,,2013,2013,10.1021/cg401391b,"Xu, W., Zhou, Y., Huang, D., Xiong, W., Su, M., Wang, K., Han, S. & Hong, M. 2013 Crystal Structure, Multiplex Photoluminescence, and Magnetic Properties of a Series of Lanthanide Coordination Polymers Based on Quinoline Carboxylate Ligand. Crystal Growth & Design 13, 5420–5432. (doi:10.1021/cg401391b)"
+2013_19,[Ho(pqc)(Hpqc)(NO3)2]n,Other Families,100000.0,Ho3+,Oblate,Non-Kramers,100.0,8.0,6.0,4508569.cif,Proper,Others,2.849,,,2013,2013,10.1021/cg401391b,"Xu, W., Zhou, Y., Huang, D., Xiong, W., Su, M., Wang, K., Han, S. & Hong, M. 2013 Crystal Structure, Multiplex Photoluminescence, and Magnetic Properties of a Series of Lanthanide Coordination Polymers Based on Quinoline Carboxylate Ligand. Crystal Growth & Design 13, 5420–5432. (doi:10.1021/cg401391b)"
+2013_19,[Er(pqc)(Hpqc)(NO3)2]n,Other Families,100000.0,Er3+,Prolate,Kramers,100.0,8.0,6.0,4508570.cif,Proper,Others,2.721,,,2013,2013,10.1021/cg401391b,"Xu, W., Zhou, Y., Huang, D., Xiong, W., Su, M., Wang, K., Han, S. & Hong, M. 2013 Crystal Structure, Multiplex Photoluminescence, and Magnetic Properties of a Series of Lanthanide Coordination Polymers Based on Quinoline Carboxylate Ligand. Crystal Growth & Design 13, 5420–5432. (doi:10.1021/cg401391b)"
+2013_19,[Tm(pqc)(Hpqc)(NO3)2]n,Other Families,100000.0,Tm3+,Prolate,Non-Kramers,100.0,8.0,6.0,4508571.cif,Proper,Others,2.69,,,2013,2013,10.1021/cg401391b,"Xu, W., Zhou, Y., Huang, D., Xiong, W., Su, M., Wang, K., Han, S. & Hong, M. 2013 Crystal Structure, Multiplex Photoluminescence, and Magnetic Properties of a Series of Lanthanide Coordination Polymers Based on Quinoline Carboxylate Ligand. Crystal Growth & Design 13, 5420–5432. (doi:10.1021/cg401391b)"
+2013_19,[Yb(pqc)(Hpqc)(NO3)2]n,Other Families,100000.0,Yb3+,Prolate,Kramers,100.0,8.0,6.0,4508572.cif,Proper,Others,2.678,,,2013,2013,10.1021/cg401391b,"Xu, W., Zhou, Y., Huang, D., Xiong, W., Su, M., Wang, K., Han, S. & Hong, M. 2013 Crystal Structure, Multiplex Photoluminescence, and Magnetic Properties of a Series of Lanthanide Coordination Polymers Based on Quinoline Carboxylate Ligand. Crystal Growth & Design 13, 5420–5432. (doi:10.1021/cg401391b)"
+2013_21,TBA8H5[{Dy(H2O)4}(γ-SiW10O36)2],POM,,Dy3+,Oblate,Kramers,100.0,8.0,6.0,932063.cif,Proper,Square antiprism,0.457,-3.1,1.0779805,2013,2013,10.1002/chem.201302596,"Sato, R., Suzuki, K., Sugawa, M. & Mizuno, N. 2013 Heterodinuclear Lanthanoid-Containing Polyoxometalates: Stepwise Synthesis and Single-Molecule Magnet Behavior. Chemistry - A European Journal 19, 12982–12990. (doi:10.1002/chem.201302596)"
+2013_21,TBA8H5[{Gd(H2O)4}(γ-SiW10O36)2],POM,,Gd3+,Isotropic,Kramers,100.0,8.0,6.0,,Proper,,,,,2013,2013,10.1002/chem.201302596,"Sato, R., Suzuki, K., Sugawa, M. & Mizuno, N. 2013 Heterodinuclear Lanthanoid-Containing Polyoxometalates: Stepwise Synthesis and Single-Molecule Magnet Behavior. Chemistry - A European Journal 19, 12982–12990. (doi:10.1002/chem.201302596)"
+2013_21,TBA8H4[{Dy(µ2-OH)2Lu}(γ-SiW10O36)2],POM,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,932066.cif,Proper,Others,7.204,,,2013,2013,10.1002/chem.201302596,"Sato, R., Suzuki, K., Sugawa, M. & Mizuno, N. 2013 Heterodinuclear Lanthanoid-Containing Polyoxometalates: Stepwise Synthesis and Single-Molecule Magnet Behavior. Chemistry - A European Journal 19, 12982–12990. (doi:10.1002/chem.201302596)"
+2013_22,[GdNa(C5O5)2(H2O)7]n,Other Families,0.0,Gd3+,Isotropic,Kramers,100.0,9.0,9.0,,Proper,,,,,2013,2013,10.1039/c3dt51195b,"Goswami, S., Adhikary, A., Jena, H. S. & Konar, S. 2013 Lanthanide based coordination polymers chill, relax under magnetic field and also fluoresce. Dalton Transactions 42, 9813. (doi:10.1039/c3dt51195b)"
+2013_22,[NdNa(C5O5)2(H2O)7]n,Other Families,0.0,Nd3+,Oblate,Kramers,100.0,9.0,9.0,7021580.cif,Proper,Spherical capped square antiprism,0.217,0.4,0.990008,2013,2013,10.1039/c3dt51195b,"Goswami, S., Adhikary, A., Jena, H. S. & Konar, S. 2013 Lanthanide based coordination polymers chill, relax under magnetic field and also fluoresce. Dalton Transactions 42, 9813. (doi:10.1039/c3dt51195b)"
+2013_22,[DyNa(C5O5)2(H2O)7]n,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,9.0,7021581.cif,Proper,Spherical capped square antiprism,0.171,-0.2,1.005002,2013,2013,10.1039/c3dt51195b,"Goswami, S., Adhikary, A., Jena, H. S. & Konar, S. 2013 Lanthanide based coordination polymers chill, relax under magnetic field and also fluoresce. Dalton Transactions 42, 9813. (doi:10.1039/c3dt51195b)"
+2013_23,[Sm(hfac)3L]n·H2O,Diketonate,,Sm3+,Prolate,Kramers,100.0,9.0,4.0,7023673.cif,Proper,Spherical tricapped trigonal prism,0.759,3.6,0.910648,2013,2013,10.1039/c3dt51743h,"Li, X.-L., Chen, C.-L., Xiao, H.-P., Wang, A.-L., Liu, C.-M., Zheng, X., Gao, L.-J., Yang, X.-G. & Fang, S.-M. 2013 Luminescent, magnetic and ferroelectric properties of noncentrosymmetric chain-like complexes composed of nine-coordinate lanthanide ions. Dalton Transactions 42, 15317. (doi:10.1039/c3dt51743h)"
+2013_23,[Tb(hfac)3L]n·H2O,Diketonate,,Tb3+,Oblate,Non-Kramers,100.0,9.0,4.0,7023675.cif,Proper,Spherical tricapped trigonal prism,1.014,3.8,0.905722,2013,2013,10.1039/c3dt51743h,"Li, X.-L., Chen, C.-L., Xiao, H.-P., Wang, A.-L., Liu, C.-M., Zheng, X., Gao, L.-J., Yang, X.-G. & Fang, S.-M. 2013 Luminescent, magnetic and ferroelectric properties of noncentrosymmetric chain-like complexes composed of nine-coordinate lanthanide ions. Dalton Transactions 42, 15317. (doi:10.1039/c3dt51743h)"
+2013_23,[Dy(hfac)3L]n·H2O,Diketonate,,Dy3+,Oblate,Kramers,100.0,9.0,4.0,7023676.cif,Proper,Spherical capped square antiprism,1.01,-1.3,1.0325845,2013,2013,10.1039/c3dt51743h,"Li, X.-L., Chen, C.-L., Xiao, H.-P., Wang, A.-L., Liu, C.-M., Zheng, X., Gao, L.-J., Yang, X.-G. & Fang, S.-M. 2013 Luminescent, magnetic and ferroelectric properties of noncentrosymmetric chain-like complexes composed of nine-coordinate lanthanide ions. Dalton Transactions 42, 15317. (doi:10.1039/c3dt51743h)"
+2013_24,[Pr2(hfac)6(H2O)2(L1)2],Diketonate,,Pr3+,Oblate,Non-Kramers,100.0,9.0,6.0,4334886.cif,Proper,Spherical capped square antiprism,0.663,1.1,0.9725605,2013,2013,10.1021/ic400253m,"Pointillart, F., Le Guennic, B., Cauchy, T., Golhen, S., Cador, O., Maury, O. & Ouahab, L. 2013 A Series of Tetrathiafulvalene-Based Lanthanide Complexes Displaying Either Single Molecule Magnet or Luminescence—Direct Magnetic and Photo-Physical Correlations in the Ytterbium Analogue. Inorganic Chemistry 52, 5978–5990. (doi:10.1021/ic400253m)"
+2013_24,[Tb2(hfac)6(L1)2],Diketonate,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,4334887.cif,Isostructural,Square antiprism,0.897,-3.2,1.080512,2013,2013,10.1021/ic400253m,"Pointillart, F., Le Guennic, B., Cauchy, T., Golhen, S., Cador, O., Maury, O. & Ouahab, L. 2013 A Series of Tetrathiafulvalene-Based Lanthanide Complexes Displaying Either Single Molecule Magnet or Luminescence—Direct Magnetic and Photo-Physical Correlations in the Ytterbium Analogue. Inorganic Chemistry 52, 5978–5990. (doi:10.1021/ic400253m)"
+2013_24,[Dy2(hfac)6(L1)2],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,,Proper,,,,,2013,2013,10.1021/ic400253m,"Pointillart, F., Le Guennic, B., Cauchy, T., Golhen, S., Cador, O., Maury, O. & Ouahab, L. 2013 A Series of Tetrathiafulvalene-Based Lanthanide Complexes Displaying Either Single Molecule Magnet or Luminescence—Direct Magnetic and Photo-Physical Correlations in the Ytterbium Analogue. Inorganic Chemistry 52, 5978–5990. (doi:10.1021/ic400253m)"
+2013_24,[Er2(hfac)6(L1)2],Diketonate,,Er3+,Prolate,Kramers,100.0,8.0,5.0,,Isostructural,,,,,2013,2013,10.1021/ic400253m,"Pointillart, F., Le Guennic, B., Cauchy, T., Golhen, S., Cador, O., Maury, O. & Ouahab, L. 2013 A Series of Tetrathiafulvalene-Based Lanthanide Complexes Displaying Either Single Molecule Magnet or Luminescence—Direct Magnetic and Photo-Physical Correlations in the Ytterbium Analogue. Inorganic Chemistry 52, 5978–5990. (doi:10.1021/ic400253m)"
+2013_24,[Yb2(hfac)6(L1)2],Diketonate,,Yb3+,Prolate,Kramers,100.0,8.0,5.0,,Isostructural,,,,,2013,2013,10.1021/ic400253m,"Pointillart, F., Le Guennic, B., Cauchy, T., Golhen, S., Cador, O., Maury, O. & Ouahab, L. 2013 A Series of Tetrathiafulvalene-Based Lanthanide Complexes Displaying Either Single Molecule Magnet or Luminescence—Direct Magnetic and Photo-Physical Correlations in the Ytterbium Analogue. Inorganic Chemistry 52, 5978–5990. (doi:10.1021/ic400253m)"
+2013_24,[Tb2(hfac)6(L2)2],Diketonate,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,4334888.cif,Proper,Triangular dodecahedron,0.608,1.3,0.9675845,2013,2013,10.1021/ic400253m,"Pointillart, F., Le Guennic, B., Cauchy, T., Golhen, S., Cador, O., Maury, O. & Ouahab, L. 2013 A Series of Tetrathiafulvalene-Based Lanthanide Complexes Displaying Either Single Molecule Magnet or Luminescence—Direct Magnetic and Photo-Physical Correlations in the Ytterbium Analogue. Inorganic Chemistry 52, 5978–5990. (doi:10.1021/ic400253m)"
+2013_24,[Dy2(hfac)6(L2)2],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,4334889.cif,Proper,Triangular dodecahedron,0.618,1.1,0.9725605,2013,2013,10.1021/ic400253m,"Pointillart, F., Le Guennic, B., Cauchy, T., Golhen, S., Cador, O., Maury, O. & Ouahab, L. 2013 A Series of Tetrathiafulvalene-Based Lanthanide Complexes Displaying Either Single Molecule Magnet or Luminescence—Direct Magnetic and Photo-Physical Correlations in the Ytterbium Analogue. Inorganic Chemistry 52, 5978–5990. (doi:10.1021/ic400253m)"
+2013_25,[(LOEt)Dy(TPP)]·0.25H2O,LnPc2,,Dy3+,Oblate,Kramers,100.0,7.0,2.0,4335013.cif,Proper,Others,0.561,,,2013,2013,10.1021/ic400245n,"Gao, F., Yao, M.-X., Li, Y.-Y., Li, Y.-Z., Song, Y. & Zuo, J.-L. 2013 Syntheses, Structures, and Magnetic Properties of seven-coordinate Lanthanide Porphyrinate or Phthalocyaninate Complexes with Kläui’s Tripodal Ligand. Inorganic Chemistry 52, 6407–6416. (doi:10.1021/ic400245n)"
+2013_25,[(LOEt)Tb(TPP)]·0.25H2O,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,7.0,2.0,4335014.cif,Proper,Others,0.577,,,2013,2013,10.1021/ic400245n,"Gao, F., Yao, M.-X., Li, Y.-Y., Li, Y.-Z., Song, Y. & Zuo, J.-L. 2013 Syntheses, Structures, and Magnetic Properties of seven-coordinate Lanthanide Porphyrinate or Phthalocyaninate Complexes with Kläui’s Tripodal Ligand. Inorganic Chemistry 52, 6407–6416. (doi:10.1021/ic400245n)"
+2013_25,[(LOEt)Ho(TPP)]·0.25H2O,LnPc2,,Ho3+,Oblate,Non-Kramers,100.0,7.0,2.0,4335015.cif,Proper,Others,0.561,,,2013,2013,10.1021/ic400245n,"Gao, F., Yao, M.-X., Li, Y.-Y., Li, Y.-Z., Song, Y. & Zuo, J.-L. 2013 Syntheses, Structures, and Magnetic Properties of seven-coordinate Lanthanide Porphyrinate or Phthalocyaninate Complexes with Kläui’s Tripodal Ligand. Inorganic Chemistry 52, 6407–6416. (doi:10.1021/ic400245n)"
+2013_25,[(LOEt)Gd(TPP)]·0.25H2O,LnPc2,,Gd3+,Isotropic,Kramers,100.0,7.0,2.0,,Proper,,,,,2013,2013,10.1021/ic400245n,"Gao, F., Yao, M.-X., Li, Y.-Y., Li, Y.-Z., Song, Y. & Zuo, J.-L. 2013 Syntheses, Structures, and Magnetic Properties of seven-coordinate Lanthanide Porphyrinate or Phthalocyaninate Complexes with Kläui’s Tripodal Ligand. Inorganic Chemistry 52, 6407–6416. (doi:10.1021/ic400245n)"
+2013_25,[(LOEt)Dy(Pc)],LnPc2,,Dy3+,Oblate,Kramers,100.0,7.0,2.0,4335017.cif,Proper,Capped trigonal prism,0.969,0.6,0.985018,2013,2013,10.1021/ic400245n,"Gao, F., Yao, M.-X., Li, Y.-Y., Li, Y.-Z., Song, Y. & Zuo, J.-L. 2013 Syntheses, Structures, and Magnetic Properties of seven-coordinate Lanthanide Porphyrinate or Phthalocyaninate Complexes with Kläui’s Tripodal Ligand. Inorganic Chemistry 52, 6407–6416. (doi:10.1021/ic400245n)"
+2013_25,[(LOEt)Dy/Y(Pc)],LnPc2,,Dy3+,Oblate,Kramers,9.1,7.0,2.0,,Isostructural,,,,,2013,2013,10.1021/ic400245n,"Gao, F., Yao, M.-X., Li, Y.-Y., Li, Y.-Z., Song, Y. & Zuo, J.-L. 2013 Syntheses, Structures, and Magnetic Properties of seven-coordinate Lanthanide Porphyrinate or Phthalocyaninate Complexes with Kläui’s Tripodal Ligand. Inorganic Chemistry 52, 6407–6416. (doi:10.1021/ic400245n)"
+2013_25,[(LOEt)Tb(Pc)],LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,7.0,2.0,4335018.cif,Proper,Capped trigonal prism,1.08,0.7000000000000001,0.9825245,2013,2013,10.1021/ic400245n,"Gao, F., Yao, M.-X., Li, Y.-Y., Li, Y.-Z., Song, Y. & Zuo, J.-L. 2013 Syntheses, Structures, and Magnetic Properties of seven-coordinate Lanthanide Porphyrinate or Phthalocyaninate Complexes with Kläui’s Tripodal Ligand. Inorganic Chemistry 52, 6407–6416. (doi:10.1021/ic400245n)"
+2013_25,[(LOEt)Ho(Pc)],LnPc2,,Ho3+,Oblate,Non-Kramers,100.0,7.0,2.0,4335019.cif,Proper,Capped trigonal prism,0.905,0.7000000000000001,0.9825245,2013,2013,10.1021/ic400245n,"Gao, F., Yao, M.-X., Li, Y.-Y., Li, Y.-Z., Song, Y. & Zuo, J.-L. 2013 Syntheses, Structures, and Magnetic Properties of seven-coordinate Lanthanide Porphyrinate or Phthalocyaninate Complexes with Kläui’s Tripodal Ligand. Inorganic Chemistry 52, 6407–6416. (doi:10.1021/ic400245n)"
+2013_25,[(LOEt)Gd(Pc)],LnPc2,,Gd3+,Isotropic,Kramers,100.0,7.0,2.0,,Proper,,,,,2013,2013,10.1021/ic400245n,"Gao, F., Yao, M.-X., Li, Y.-Y., Li, Y.-Z., Song, Y. & Zuo, J.-L. 2013 Syntheses, Structures, and Magnetic Properties of seven-coordinate Lanthanide Porphyrinate or Phthalocyaninate Complexes with Kläui’s Tripodal Ligand. Inorganic Chemistry 52, 6407–6416. (doi:10.1021/ic400245n)"
+2013_26,[Tb(hfac)3(bpy)],Diketonate,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,4335318.cif,Proper,Square antiprism,0.529,-1.8,1.045162,2013,2013,10.1021/ic400006n,"Wang, Y.-L., Ma, Y., Yang, X., Tang, J., Cheng, P., Wang, Q.-L., Li, L.-C. & Liao, D.-Z. 2013 Syntheses, Structures, and Magnetic and Luminescence Properties of a New DyIII-Based Single-Ion Magnet. Inorganic Chemistry 52, 7380–7386. (doi:10.1021/ic400006n)"
+2013_26,[Ho(hfac)3(bpy)],Diketonate,,Ho3+,Oblate,Non-Kramers,100.0,8.0,4.0,4335319.cif,Proper,Square antiprism,0.393,-2.5,1.0628125,2013,2013,10.1021/ic400006n,"Wang, Y.-L., Ma, Y., Yang, X., Tang, J., Cheng, P., Wang, Q.-L., Li, L.-C. & Liao, D.-Z. 2013 Syntheses, Structures, and Magnetic and Luminescence Properties of a New DyIII-Based Single-Ion Magnet. Inorganic Chemistry 52, 7380–7386. (doi:10.1021/ic400006n)"
+2013_26,[Dy(hfac)3(bpy)],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4335317.cif,Proper,Square antiprism,0.436,-2.7,1.0678645,2013,2013,10.1021/ic400006n,"Wang, Y.-L., Ma, Y., Yang, X., Tang, J., Cheng, P., Wang, Q.-L., Li, L.-C. & Liao, D.-Z. 2013 Syntheses, Structures, and Magnetic and Luminescence Properties of a New DyIII-Based Single-Ion Magnet. Inorganic Chemistry 52, 7380–7386. (doi:10.1021/ic400006n)"
+2013_27,{(TClPP)Dy[Pc(OPh)8]Y[Pc(OPh)8]},LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,4335534.cif,Proper,Others,1.073,,,2013,2013,10.1021/ic400485y,"Kan, J., Wang, H., Sun, W., Cao, W., Tao, J. & Jiang, J. 2013 Sandwich-Type Mixed Tetrapyrrole Rare-Earth Triple-Decker Compounds. Effect of the Coordination Geometry on the Single-Molecule-Magnet Nature. Inorganic Chemistry 52, 8505–8510. (doi:10.1021/ic400485y)"
+2013_27,{(TClPP)Y[Pc(OPh)8]Dy[Pc(OPh)8]},LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,4335536.cif,Proper,Triangular dodecahedron,3.11,7.1,0.8250205,2013,2013,10.1021/ic400485y,"Kan, J., Wang, H., Sun, W., Cao, W., Tao, J. & Jiang, J. 2013 Sandwich-Type Mixed Tetrapyrrole Rare-Earth Triple-Decker Compounds. Effect of the Coordination Geometry on the Single-Molecule-Magnet Nature. Inorganic Chemistry 52, 8505–8510. (doi:10.1021/ic400485y)"
+2013_28,{[Dy(H2L)Cl2(MeOH)3]Cl·3MeOH}n,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,7.0,7.0,7209145.cif,Proper,Pentagonal bipyramid,1.206,-4.5,1.1135125,2013,2013,10.1039/c2ce26680f,"Zhu, J., Song, H.-F., Yan, P.-F., Hou, G.-F. & Li, G.-M. 2013 Slow relaxation processes of salen type Dy2 complex and 1D ionic spiral Dyn coordination polymer. CrystEngComm 15, 1747. (doi:10.1039/c2ce26680f)"
+2013_29,[Dy(bpyno)4][PMo12O40]·2H2O,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1512839.cif,Proper,Triangular dodecahedron,0.2,0.4,0.990008,2013,2013,10.1016/j.ica.2012.10.001,"Zhou, W., Feng, X., Ke, H., Li, Y., Tang, J. & Wang, E. 2013 New polyoxometalate-based mononuclear lanthanide complexes with slow relaxation of magnetization. Inorganica Chimica Acta 394, 770–775. (doi:10.1016/j.ica.2012.10.001)"
+2013_29,[Tb(bpyno)4][PMo12O40]·2H2O,Other Families,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,1512840.cif,Proper,Triangular dodecahedron,0.17,0.3,0.9925045,2013,2013,10.1016/j.ica.2012.10.001,"Zhou, W., Feng, X., Ke, H., Li, Y., Tang, J. & Wang, E. 2013 New polyoxometalate-based mononuclear lanthanide complexes with slow relaxation of magnetization. Inorganica Chimica Acta 394, 770–775. (doi:10.1016/j.ica.2012.10.001)"
+2013_29,[Er(bpyno)4][PMo12O40]·2H2O,Other Families,,Er3+,Prolate,Kramers,100.0,8.0,4.0,1512841.cif,Proper,Triangular dodecahedron,0.185,0.4,0.990008,2013,2013,10.1016/j.ica.2012.10.001,"Zhou, W., Feng, X., Ke, H., Li, Y., Tang, J. & Wang, E. 2013 New polyoxometalate-based mononuclear lanthanide complexes with slow relaxation of magnetization. Inorganica Chimica Acta 394, 770–775. (doi:10.1016/j.ica.2012.10.001)"
+2013_29,[Ho(bpyno)4][PMo12O40]·2H2O,Other Families,,Ho3+,Oblate,Non-Kramers,100.0,8.0,4.0,1512842.cif,Proper,Triangular dodecahedron,0.182,0.2,0.995002,2013,2013,10.1016/j.ica.2012.10.001,"Zhou, W., Feng, X., Ke, H., Li, Y., Tang, J. & Wang, E. 2013 New polyoxometalate-based mononuclear lanthanide complexes with slow relaxation of magnetization. Inorganica Chimica Acta 394, 770–775. (doi:10.1016/j.ica.2012.10.001)"
+2013_31,[K(18-crown-6)][Er(COT)2]·2THF,Metallocene,,Er3+,Prolate,Kramers,100.0,2.0,2.0,1001174.cif,Proper,,,,,2013,2013,10.1021/ja4094814,"Meihaus, K. R. & Long, J. R. 2013 Magnetic Blocking at 10 K and a Dipolar-Mediated Avalanche in Salts of the Bis(η8-cyclooctatetraenide) Complex [Er(COT)2]−. Journal of the American Chemical Society 135, 17952–17957. (doi:10.1021/ja4094814)"
+2013_31,[K(18-crown-6)(THF)2][Er(COT)2],Metallocene,,Er3+,Prolate,Kramers,100.0,2.0,2.0,1001175.cif,Proper,,,,,2013,2013,10.1021/ja4094814,"Meihaus, K. R. & Long, J. R. 2013 Magnetic Blocking at 10 K and a Dipolar-Mediated Avalanche in Salts of the Bis(η8-cyclooctatetraenide) Complex [Er(COT)2]−. Journal of the American Chemical Society 135, 17952–17957. (doi:10.1021/ja4094814)"
+2013_31,[K(18-crown-6)(THF)2][Er0.05/Y0.95(COT)2],Metallocene,,Er3+,Prolate,Kramers,5.0,2.0,2.0,,Isostructural,,,,,2013,2013,10.1021/ja4094814,"Meihaus, K. R. & Long, J. R. 2013 Magnetic Blocking at 10 K and a Dipolar-Mediated Avalanche in Salts of the Bis(η8-cyclooctatetraenide) Complex [Er(COT)2]−. Journal of the American Chemical Society 135, 17952–17957. (doi:10.1021/ja4094814)"
+2013_31,[K(18-crown-6)(THF)2][Er0.012/Y0.988(COT)2],Metallocene,,Er3+,Prolate,Kramers,1.2,2.0,2.0,,Isostructural,,,,,2013,2013,10.1021/ja4094814,"Meihaus, K. R. & Long, J. R. 2013 Magnetic Blocking at 10 K and a Dipolar-Mediated Avalanche in Salts of the Bis(η8-cyclooctatetraenide) Complex [Er(COT)2]−. Journal of the American Chemical Society 135, 17952–17957. (doi:10.1021/ja4094814)"
+2013_31,[K(18-crown-6)(THF)2][Sm(COT)2],Metallocene,,Sm3+,Prolate,Kramers,100.0,2.0,2.0,1001171.cif,Proper,,,,,2013,2013,10.1021/ja4094814,"Meihaus, K. R. & Long, J. R. 2013 Magnetic Blocking at 10 K and a Dipolar-Mediated Avalanche in Salts of the Bis(η8-cyclooctatetraenide) Complex [Er(COT)2]−. Journal of the American Chemical Society 135, 17952–17957. (doi:10.1021/ja4094814)"
+2013_31,[K(18-crown-6)][Tb(COT)2]·2THF,Metallocene,,Tb3+,Oblate,Non-Kramers,100.0,2.0,2.0,,Isostructural,,,,,2013,2013,10.1021/ja4094814,"Meihaus, K. R. & Long, J. R. 2013 Magnetic Blocking at 10 K and a Dipolar-Mediated Avalanche in Salts of the Bis(η8-cyclooctatetraenide) Complex [Er(COT)2]−. Journal of the American Chemical Society 135, 17952–17957. (doi:10.1021/ja4094814)"
+2013_31,[K(18-crown-6)(THF)2][Dy(COT)2],Metallocene,,Dy3+,Oblate,Kramers,100.0,2.0,2.0,1001172.cif,Proper,,,,,2013,2013,10.1021/ja4094814,"Meihaus, K. R. & Long, J. R. 2013 Magnetic Blocking at 10 K and a Dipolar-Mediated Avalanche in Salts of the Bis(η8-cyclooctatetraenide) Complex [Er(COT)2]−. Journal of the American Chemical Society 135, 17952–17957. (doi:10.1021/ja4094814)"
+2013_31,[K(18-crown-6)][Ho(COT)2]·2THF,Metallocene,,Ho3+,Oblate,Non-Kramers,100.0,2.0,2.0,,Isostructural,,,,,2013,2013,10.1021/ja4094814,"Meihaus, K. R. & Long, J. R. 2013 Magnetic Blocking at 10 K and a Dipolar-Mediated Avalanche in Salts of the Bis(η8-cyclooctatetraenide) Complex [Er(COT)2]−. Journal of the American Chemical Society 135, 17952–17957. (doi:10.1021/ja4094814)"
+2013_31,[K(18-crown-6)][Yb(COT)2]·2THF,Metallocene,,Yb3+,Prolate,Kramers,100.0,2.0,2.0,,Isostructural,,,,,2013,2013,10.1021/ja4094814,"Meihaus, K. R. & Long, J. R. 2013 Magnetic Blocking at 10 K and a Dipolar-Mediated Avalanche in Salts of the Bis(η8-cyclooctatetraenide) Complex [Er(COT)2]−. Journal of the American Chemical Society 135, 17952–17957. (doi:10.1021/ja4094814)"
+2013_32,quadruple decker Pc complexes,LnPc2,,Tb3+,Oblate,Non-Kramers,10.0,8.0,2.0,,,,,,,2013,2013,10.1021/jp406009m,"Fukuda, T., Matsumura, K. & Ishikawa, N. 2013 Influence of Intramolecular f-f Interactions on Nuclear Spin Driven Quantum Tunneling of Magnetizations in Quadruple-Decker Phthalocyanine Complexes Containing Two Terbium or Dysprosium Magnetic Centers. The Journal of Physical Chemistry A 117, 10447–10454. (doi:10.1021/jp406009m)"
+2013_32,quadruple decker Pc complexes,LnPc2,,Dy3+,Oblate,Kramers,5.0,8.0,2.0,,,,,,,2013,2013,10.1021/jp406009m,"Fukuda, T., Matsumura, K. & Ishikawa, N. 2013 Influence of Intramolecular f-f Interactions on Nuclear Spin Driven Quantum Tunneling of Magnetizations in Quadruple-Decker Phthalocyanine Complexes Containing Two Terbium or Dysprosium Magnetic Centers. The Journal of Physical Chemistry A 117, 10447–10454. (doi:10.1021/jp406009m)"
+2013_33,Dy@7,Other Families,,Dy3+,Oblate,Kramers,100.0,6.0,6.0,904009.cif,Isostructural,Octahedron,2.657,-0.5,1.0125125,2013,2013,10.1038/NCHEM.1707,"Blagg, R. J. et al. 2013 Magnetic relaxation pathways in lanthanide single-molecule magnets. Nature Chemistry 5, 673–678. (doi:10.1038/nchem.1707)"
+2013_33,Dy@8,Other Families,,Dy3+,Oblate,Kramers,100.0,6.0,6.0,817819.cif,Isostructural,Octahedron,1.947,-1.3,1.0325845,2013,2013,10.1038/NCHEM.1707,"Blagg, R. J. et al. 2013 Magnetic relaxation pathways in lanthanide single-molecule magnets. Nature Chemistry 5, 673–678. (doi:10.1038/nchem.1707)"
+2013_35,(choline)[Dy(ox)(H2O)3Cl]Cl·H2O,Other Families,100000.0,Dy3+,Oblate,Kramers,100.0,8.0,6.0,7021824.cif,Proper,Triangular dodecahedron,1.302,0.8,0.980032,2013,2013,10.1039/c3dt51816g,"Meng, Y., Liu, J.-L., Zhang, Z.-M., Lin, W.-Q., Lin, Z.-J. & Tong, M.-L. 2013 Ionothermal synthesis of two oxalate-bridged lanthanide(iii) chains with slow magnetization relaxation by using a deep eutectic solvent. Dalton Transactions 42, 12853. (doi:10.1039/c3dt51816g)"
+2013_35,(choline)[Er(ox)(H2O)3Cl]Cl·H2O,Other Families,100000.0,Er3+,Prolate,Kramers,100.0,8.0,6.0,7021825.cif,Proper,Triangular dodecahedron,1.259,0.8,0.980032,2013,2013,10.1039/c3dt51816g,"Meng, Y., Liu, J.-L., Zhang, Z.-M., Lin, W.-Q., Lin, Z.-J. & Tong, M.-L. 2013 Ionothermal synthesis of two oxalate-bridged lanthanide(iii) chains with slow magnetization relaxation by using a deep eutectic solvent. Dalton Transactions 42, 12853. (doi:10.1039/c3dt51816g)"
+2013_36,[LZn(μ-OAc)Dy(NO3)2],TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,7021843.cif,Proper,Muffin,2.829,-3.3,1.0830445,2013,2013,10.1039/c3dt51432c,"Chandrasekhar, V., Chakraborty, A. & Sañudo, E. C. 2013 Ferrocene-based compartmental ligand for the assembly of neutral ZnII/LnIII heterometallic complexes. Dalton Transactions 42, 13436. (doi:10.1039/c3dt51432c)"
+2013_36,[LZn(μ-OAc)Tb(NO3)2],TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,9.0,3.0,7021844.cif,Proper,Muffin,2.984,-3.5,1.0881125,2013,2013,10.1039/c3dt51432c,"Chandrasekhar, V., Chakraborty, A. & Sañudo, E. C. 2013 Ferrocene-based compartmental ligand for the assembly of neutral ZnII/LnIII heterometallic complexes. Dalton Transactions 42, 13436. (doi:10.1039/c3dt51432c)"
+2013_36,[LZn(μ-OAc)Gd(NO3)2·2CHCl3],TM near Ln,,Gd3+,Isotropic,Kramers,100.0,9.0,3.0,,Proper,,,,,2013,2013,10.1039/c3dt51432c,"Chandrasekhar, V., Chakraborty, A. & Sañudo, E. C. 2013 Ferrocene-based compartmental ligand for the assembly of neutral ZnII/LnIII heterometallic complexes. Dalton Transactions 42, 13436. (doi:10.1039/c3dt51432c)"
+2013_36,[LZn(μ-OAc)Er(NO3)2],TM near Ln,,Er3+,Prolate,Kramers,100.0,9.0,3.0,7021846.cif,Proper,Muffin,2.648,-3.3,1.0830445,2013,2013,10.1039/c3dt51432c,"Chandrasekhar, V., Chakraborty, A. & Sañudo, E. C. 2013 Ferrocene-based compartmental ligand for the assembly of neutral ZnII/LnIII heterometallic complexes. Dalton Transactions 42, 13436. (doi:10.1039/c3dt51432c)"
+2013_36,[LZn(μ-OAc)Ho(NO3)2],TM near Ln,,Ho3+,Oblate,Non-Kramers,100.0,9.0,3.0,7021847.cif,Proper,Muffin,2.786,-3.2,1.080512,2013,2013,10.1039/c3dt51432c,"Chandrasekhar, V., Chakraborty, A. & Sañudo, E. C. 2013 Ferrocene-based compartmental ligand for the assembly of neutral ZnII/LnIII heterometallic complexes. Dalton Transactions 42, 13436. (doi:10.1039/c3dt51432c)"
+2013_38,Zn3Tb(LBu)(NO3)3·MeOH·H2O·DMF,TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,,3.0,908289.cif,Isostructural,Others,3.546,,,2013,2013,10.1021/ic302735j,"Feltham, H. L. C., Clérac, R., Ungur, L., Chibotaru, L. F., Powell, A. K. & Brooker, S. 2013 By Design: A Macrocyclic 3d–4f Single-Molecule Magnet with Quantifiable Zero-Field Slow Relaxation of Magnetization. Inorganic Chemistry 52, 3236–3240. (doi:10.1021/ic302735j)"
+2013_39,F64Pc2Tb-,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2013,2013,10.1021/ic3027418,"Gonidec, M., Krivokapic, I., Vidal-Gancedo, J., Davies, E. S., McMaster, J., Gorun, S. M. & Veciana, J. 2013 Highly Reduced Double-Decker Single-Molecule Magnets Exhibiting Slow Magnetic Relaxation. Inorganic Chemistry 52, 4464–4471. (doi:10.1021/ic3027418)"
+2013_39,F64Pc2Tb2-,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2013,2013,10.1021/ic3027418,"Gonidec, M., Krivokapic, I., Vidal-Gancedo, J., Davies, E. S., McMaster, J., Gorun, S. M. & Veciana, J. 2013 Highly Reduced Double-Decker Single-Molecule Magnets Exhibiting Slow Magnetic Relaxation. Inorganic Chemistry 52, 4464–4471. (doi:10.1021/ic3027418)"
+2013_40,[DyZnL(OAc)2(NO3)]·CH3OH,TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,4.0,905911.cif,Proper,Muffin,3.154,-0.6,1.015018,2013,2013,10.1021/ic400620j,"Zhang, P., Zhang, L., Lin, S.-Y. & Tang, J. 2013 Tetranuclear [MDy]2 Compounds and Their Dinuclear [MDy] (M = Zn/Cu) Building Units: Their Assembly, Structures, and Magnetic Properties. Inorganic Chemistry 52, 6595–6602. (doi:10.1021/ic400620j)"
+2013_41,[(LOEt)Ln(L)]·0.25H2O,Schiff Base,,Dy3+,Oblate,Kramers,100.0,7.0,2.0,4336194.cif,Proper,Capped trigonal prism,0.684,-2.3,1.0577645,2013,2013,10.1021/ic401421h,"Gao, F., Cui, L., Liu, W., Hu, L., Zhong, Y.-W., Li, Y.-Z. & Zuo, J.-L. 2013 Seven-Coordinate Lanthanide Sandwich-Type Complexes with a Tetrathiafulvalene-Fused Schiff Base Ligand. Inorganic Chemistry 52, 11164–11172. (doi:10.1021/ic401421h)"
+2013_41,[(LOEt)Ln(L)]·0.25H2O,Schiff Base,,Tb3+,Oblate,Non-Kramers,100.0,7.0,2.0,4336195.cif,Proper,Capped trigonal prism,0.659,-1.7,1.0426445,2013,2013,10.1021/ic401421h,"Gao, F., Cui, L., Liu, W., Hu, L., Zhong, Y.-W., Li, Y.-Z. & Zuo, J.-L. 2013 Seven-Coordinate Lanthanide Sandwich-Type Complexes with a Tetrathiafulvalene-Fused Schiff Base Ligand. Inorganic Chemistry 52, 11164–11172. (doi:10.1021/ic401421h)"
+2013_41,[(LOEt)Ln(L)]·0.25H2O,Schiff Base,,Ho3+,Oblate,Non-Kramers,100.0,7.0,2.0,4336196.cif,Proper,Capped trigonal prism,0.755,-2.2,1.055242,2013,2013,10.1021/ic401421h,"Gao, F., Cui, L., Liu, W., Hu, L., Zhong, Y.-W., Li, Y.-Z. & Zuo, J.-L. 2013 Seven-Coordinate Lanthanide Sandwich-Type Complexes with a Tetrathiafulvalene-Fused Schiff Base Ligand. Inorganic Chemistry 52, 11164–11172. (doi:10.1021/ic401421h)"
+2013_42,[TbIII(hfac)3(2pyNO)],Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,7023685.cif,Proper,Square antiprism,0.937,-2.5,1.0628125,2013,2013,10.1039/c3dt51784e,"Murakami, R., Ishida, T., Yoshii, S. & Nojiri, H. 2013 Single-molecule magnet [Tb(hfac)3(2pyNO)] (2pyNO = t-butyl 2-pyridyl nitroxide) with a relatively high barrier of magnetization reversal. Dalton Transactions 42, 13968. (doi:10.1039/c3dt51784e)"
+2013_43,{[Dy(HPA)2(NO3)2]NO3}n,Other Families,100000.0,Dy3+,Oblate,Kramers,100.0,8.0,6.0,926085.cif,Proper,Others,2.861,,,2013,2013,10.1016/j.inoche.2013.05.007,"Na, B., Wang, Y.-X., Han, T., Shi, W. & Cheng, P. 2013 A rare one-dimensional Dy(III) complex exhibiting slow magnetic relaxation. Inorganic Chemistry Communications 35, 19–21. (doi:10.1016/j.inoche.2013.05.007)"
+2013_44,[Gd(Hfac)3(NIT-4PhAllO)2],Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,Proper,,,,,2013,2013,10.1134/S1070328413100035,"Liu, R. N., Zhao, S. P. & Xiong, C. X. 2013 Syntheses, crystal structures, and magnetic properties of two monometallic tri-spin complexes involving nitronyl nitroxide radicals-lanthanide ions. Russian Journal of Coordination Chemistry 39, 808–812. (doi:10.1134/s1070328413100035)"
+2013_44,[Tb(Hfac)3(NIT-4PhAllO)2],Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,845091.cif,Proper,Triangular dodecahedron,0.512,-1.2,1.030072,2013,2013,10.1134/S1070328413100035,"Liu, R. N., Zhao, S. P. & Xiong, C. X. 2013 Syntheses, crystal structures, and magnetic properties of two monometallic tri-spin complexes involving nitronyl nitroxide radicals-lanthanide ions. Russian Journal of Coordination Chemistry 39, 808–812. (doi:10.1134/s1070328413100035)"
+2013_45,[Gd(hfac)3(NITPh-3-Br-4-OMe)2],Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,Proper,,,,,2013,2013,10.1016/j.jssc.2013.03.052,"Wang, Y.-L., Gao, Y.-Y., Ma, Y., Wang, Q.-L., Li, L.-C. & Liao, D.-Z. 2013 Syntheses, crystal structures, magnetic and luminescence properties of five novel lanthanide complexes of nitronyl nitroxide radical. Journal of Solid State Chemistry 202, 276–281. (doi:10.1016/j.jssc.2013.03.052)"
+2013_45,[Tb(hfac)3(NITPh-3-Br-4-OMe)2],Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,783308.cif,Proper,Triangular dodecahedron,0.337,-0.3,1.0075045,2013,2013,10.1016/j.jssc.2013.03.052,"Wang, Y.-L., Gao, Y.-Y., Ma, Y., Wang, Q.-L., Li, L.-C. & Liao, D.-Z. 2013 Syntheses, crystal structures, magnetic and luminescence properties of five novel lanthanide complexes of nitronyl nitroxide radical. Journal of Solid State Chemistry 202, 276–281. (doi:10.1016/j.jssc.2013.03.052)"
+2013_45,[Dy(hfac)3(NITPh-3-Br-4-OMe)2],Radical,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,784378.cif,Proper,Triangular dodecahedron,0.308,-0.2,1.005002,2013,2013,10.1016/j.jssc.2013.03.052,"Wang, Y.-L., Gao, Y.-Y., Ma, Y., Wang, Q.-L., Li, L.-C. & Liao, D.-Z. 2013 Syntheses, crystal structures, magnetic and luminescence properties of five novel lanthanide complexes of nitronyl nitroxide radical. Journal of Solid State Chemistry 202, 276–281. (doi:10.1016/j.jssc.2013.03.052)"
+2013_45,[Ho(hfac)3(NITPh-3-Br-4-OMe)2],Radical,,Ho3+,Oblate,Non-Kramers,100.0,8.0,5.0,822491.cif,Proper,Triangular dodecahedron,0.295,0.1,0.9975005,2013,2013,10.1016/j.jssc.2013.03.052,"Wang, Y.-L., Gao, Y.-Y., Ma, Y., Wang, Q.-L., Li, L.-C. & Liao, D.-Z. 2013 Syntheses, crystal structures, magnetic and luminescence properties of five novel lanthanide complexes of nitronyl nitroxide radical. Journal of Solid State Chemistry 202, 276–281. (doi:10.1016/j.jssc.2013.03.052)"
+2013_46,[{Pc(OC4H9)8}{BiPc(OC4H9)12}Dy{Pc(OC4H9)8}],LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,905037.cif,Proper,Square antiprism,0.632,-6.600000000000001,1.167178,2013,2013,10.1002/chem.201301101,"Wang, K., Qi, D., Wang, H., Cao, W., Li, W., Liu, T., Duan, C. & Jiang, J. 2013 Binuclear Phthalocyanine-Based Sandwich-Type Rare Earth Complexes: Unprecedented Two π-Bridged Biradical-Metal Integrated SMMs. Chemistry - A European Journal 19, 11162–11166. (doi:10.1002/chem.201301101)"
+2013_46,[N(C4H9)4]2+·[{Pc-(OC4H9)8}Dy{BiPc(OC4H9)12}Dy{Pc(OC4H9)8}]2-,LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,,Isostructural,,,,,2013,2013,10.1002/chem.201301101,"Wang, K., Qi, D., Wang, H., Cao, W., Li, W., Liu, T., Duan, C. & Jiang, J. 2013 Binuclear Phthalocyanine-Based Sandwich-Type Rare Earth Complexes: Unprecedented Two π-Bridged Biradical-Metal Integrated SMMs. Chemistry - A European Journal 19, 11162–11166. (doi:10.1002/chem.201301101)"
+2013_47,[Ln(hfac)3(NITMe)]n,Radical,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,891648.cif,Proper,Square antiprism,0.439,-2.8,1.070392,2013,2013,10.1016/j.ica.2012.12.025,"Hu, P., Zhang, C., Gao, Y., Li, Y., Ma, Y., Li, L. & Liao, D. 2013 Lanthanide–radical linear chain compounds based on 2,4,4,5,5-pentamethylimidazoline-1-oxyl-3-oxide: Structure and magnetic properties. Inorganica Chimica Acta 398, 136–140. (doi:10.1016/j.ica.2012.12.025)"
+2013_48,[NdCo(bpdo)(H2O)4(CN)6]·3H2O,Other Families,,Nd3+,Oblate,Kramers,100.0,9.0,8.0,,,,,,,2013,2013,10.1088/0953-8984/25/18/186003,"Vrábel, P. et al. 2013 Slow spin relaxation induced by magnetic field in [NdCo(bpdo)(H2O)4(CN)6]⋅3H2O. Journal of Physics: Condensed Matter 25, 186003. (doi:10.1088/0953-8984/25/18/186003)"
+2014_1,[K(18-crown-6)][Er(COT)2],Metallocene,,Er3+,Prolate,Kramers,100.0,2.0,2.0,961014.cif,Proper,,,,,2014,2014,10.1002/anie.201310451,"Ungur, L., Le Roy, J. J., Korobkov, I., Murugesu, M. & Chibotaru, L. F. 2014 Fine-tuning the Local Symmetry to Attain Record Blocking Temperature and Magnetic Remanence in a Single-Ion Magnet. Angewandte Chemie International Edition 53, 4413–4417. (doi:10.1002/anie.201310451)"
+2014_1,[K(18-crown-6)][Dy(COT)2],Metallocene,,Dy3+,Oblate,Kramers,100.0,2.0,2.0,961013.cif,Proper,,,,,2014,2014,10.1002/anie.201310451,"Ungur, L., Le Roy, J. J., Korobkov, I., Murugesu, M. & Chibotaru, L. F. 2014 Fine-tuning the Local Symmetry to Attain Record Blocking Temperature and Magnetic Remanence in a Single-Ion Magnet. Angewandte Chemie International Edition 53, 4413–4417. (doi:10.1002/anie.201310451)"
+2014_3,[DyIr6(ppy)12(bpp)2(bppH)4](CF3SO3)·8H2O,P=O,,Dy3+,Oblate,Kramers,100.0,6.0,6.0,7115327.cif,Proper,Octahedron,0.062,-0.5,1.0125125,2014,2014,10.1039/c4cc02951h,"Zeng, D., Ren, M., Bao, S.-S., Li, L. & Zheng, L.-M. 2014 A luminescent heptanuclear DyIr6 complex showing field-induced slow magnetization relaxation. Chemical Communications 50, 8356. (doi:10.1039/c4cc02951h)"
+2014_4,[ZnDy(NO3)2(L)2(CH3CO2)],Schiff Base,,Dy3+,Oblate,Kramers,100.0,9.0,5.0,7115383.cif,Proper,Spherical capped square antiprism,2.026,1.0,0.97505,2014,2014,10.1039/c4cc02094d,"Upadhyay, A., Singh, S. K., Das, C., Mondol, R., Langley, S. K., Murray, K. S., Rajaraman, G. & Shanmugam, M. 2014 Enhancing the effective energy barrier of a Dy(iii) SMM using a bridged diamagnetic Zn(ii) ion. Chem. Commun. 50, 8838–8841. (doi:10.1039/c4cc02094d)"
+2014_4,[Dy(HL)2(NO3)3],Schiff Base,,Dy3+,Oblate,Kramers,100.0,,6.0,7115384.cif,Proper,Others,3.405,,,2014,2014,10.1039/c4cc02094d,"Upadhyay, A., Singh, S. K., Das, C., Mondol, R., Langley, S. K., Murray, K. S., Rajaraman, G. & Shanmugam, M. 2014 Enhancing the effective energy barrier of a Dy(iii) SMM using a bridged diamagnetic Zn(ii) ion. Chem. Commun. 50, 8838–8841. (doi:10.1039/c4cc02094d)"
+2014_5,[(C6Me6)Dy(AlCl4)3],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,4.0,4.0,7115650.cif,Proper,Others,8.716,,,2014,2014,10.1039/c4cc04262j,"Liu, S.-S., Ziller, J. W., Zhang, Y.-Q., Wang, B.-W., Evans, W. J. & Gao, S. 2014 A half-sandwich organometallic single-ion magnet with hexamethylbenzene coordinated to the Dy(iii) ion. Chem. Commun. 50, 11418–11420. (doi:10.1039/c4cc04262j)"
+2014_6,[Co2Dy(valdien)2(OCH3)2(chp)2]·ClO4·5H2O,Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,6.0,983685.cif,Proper,Square antiprism,2.483,-6.5,1.1646125,2014,2014,10.1002/asia.201402001,"Liu, C.-M., Zhang, D.-Q., Hao, X. & Zhu, D.-B. 2014 Trinuclear [CoIII2-LnIII] (Ln=Tb, Dy) Single-Ion Magnets with Mixed 6-Chloro-2-Hydroxypyridine and Schiff Base Ligands. Chemistry - An Asian Journal 9, 1847–1853. (doi:10.1002/asia.201402001)"
+2014_6,[Co2Tb(valdien)2(OCH3)2(chp)2]·ClO4·2H2O·CH3OH,Schiff Base,,Tb3+,Oblate,Non-Kramers,100.0,8.0,6.0,983686.cif,Proper,Square antiprism,2.425,-6.1,1.1543605,2014,2014,10.1002/asia.201402001,"Liu, C.-M., Zhang, D.-Q., Hao, X. & Zhu, D.-B. 2014 Trinuclear [CoIII2-LnIII] (Ln=Tb, Dy) Single-Ion Magnets with Mixed 6-Chloro-2-Hydroxypyridine and Schiff Base Ligands. Chemistry - An Asian Journal 9, 1847–1853. (doi:10.1002/asia.201402001)"
+2014_8,[Yb(Murex)3]·11H2O,Other Families,,Yb3+,Prolate,Kramers,100.0,9.0,3.0,963242.cif,Proper,Spherical capped square antiprism,0.826,0.4,0.990008,2014,2014,10.1002/chem.201303833,"Yi, X. et al. 2014 Unraveling the Crystal Structure of Lanthanide-Murexide Complexes: Use of an Ancient Complexometry Indicator as a Near-Infrared-Emitting Single-Ion Magnet. Chemistry - A European Journal 20, 1569–1576. (doi:10.1002/chem.201303833)"
+2014_9,[Cp*2Tb(BPh4)],Mixed Ligands,,Tb3+,Oblate,Non-Kramers,100.0,6.0,3.0,,,,,,,2014,2014,10.1002/chem.201403751,"Demir, S., Zadrozny, J. M. & Long, J. R. 2014 Large Spin-Relaxation Barriers for the Low-Symmetry Organolanthanide Complexes [Cp*2Ln(BPh4)] (Cp*=pentamethylcyclopentadienyl; Ln=Tb, Dy). Chemistry - A European Journal 20, 9524–9529. (doi:10.1002/chem.201403751)"
+2014_9,[Cp*2Dy(BPh4)],Mixed Ligands,,Dy3+,Oblate,Kramers,100.0,6.0,3.0,,,,,,,2014,2014,10.1002/chem.201403751,"Demir, S., Zadrozny, J. M. & Long, J. R. 2014 Large Spin-Relaxation Barriers for the Low-Symmetry Organolanthanide Complexes [Cp*2Ln(BPh4)] (Cp*=pentamethylcyclopentadienyl; Ln=Tb, Dy). Chemistry - A European Journal 20, 9524–9529. (doi:10.1002/chem.201403751)"
+2014_9,[Cp*2Tb(BPh4)],Mixed Ligands,,Tb3+,Oblate,Non-Kramers,25.0,6.0,3.0,,,,,,,2014,2014,10.1002/chem.201403751,"Demir, S., Zadrozny, J. M. & Long, J. R. 2014 Large Spin-Relaxation Barriers for the Low-Symmetry Organolanthanide Complexes [Cp*2Ln(BPh4)] (Cp*=pentamethylcyclopentadienyl; Ln=Tb, Dy). Chemistry - A European Journal 20, 9524–9529. (doi:10.1002/chem.201403751)"
+2014_9,[Cp*2Dy(BPh4)],Mixed Ligands,,Dy3+,Oblate,Kramers,20.0,6.0,3.0,,,,,,,2014,2014,10.1002/chem.201403751,"Demir, S., Zadrozny, J. M. & Long, J. R. 2014 Large Spin-Relaxation Barriers for the Low-Symmetry Organolanthanide Complexes [Cp*2Ln(BPh4)] (Cp*=pentamethylcyclopentadienyl; Ln=Tb, Dy). Chemistry - A European Journal 20, 9524–9529. (doi:10.1002/chem.201403751)"
+2014_10,{(H3O)[Tb(NA)2]·H2O}n,Other Families,,Tb3+,Oblate,Non-Kramers,100.0,6.0,6.0,1003329.cif,Proper,Octahedron,0.162,-0.8,1.020032,2014,2014,10.1002/chem.201404573,"Na, B., Zhang, X.-J., Shi, W., Zhang, Y.-Q., Wang, B.-W., Gao, C., Gao, S. & Cheng, P. 2014 Six-Coordinate Lanthanide Complexes: Slow Relaxation of Magnetization in the Dysprosium(III) Complex. Chemistry - A European Journal 20, 15975–15980. (doi:10.1002/chem.201404573)"
+2014_10,{(H3O)[Dy(NA)2]·H2O}n,Other Families,,Dy3+,Oblate,Kramers,100.0,6.0,6.0,1003330.cif,Proper,Octahedron,0.19,-0.8,1.020032,2014,2014,10.1002/chem.201404573,"Na, B., Zhang, X.-J., Shi, W., Zhang, Y.-Q., Wang, B.-W., Gao, C., Gao, S. & Cheng, P. 2014 Six-Coordinate Lanthanide Complexes: Slow Relaxation of Magnetization in the Dysprosium(III) Complex. Chemistry - A European Journal 20, 15975–15980. (doi:10.1002/chem.201404573)"
+2014_10,{(H3O)[Dy(NA)2]·H2O}n,Other Families,,Dy3+,Oblate,Kramers,4.1,6.0,6.0,,Isostructural,,,,,2014,2014,10.1002/chem.201404573,"Na, B., Zhang, X.-J., Shi, W., Zhang, Y.-Q., Wang, B.-W., Gao, C., Gao, S. & Cheng, P. 2014 Six-Coordinate Lanthanide Complexes: Slow Relaxation of Magnetization in the Dysprosium(III) Complex. Chemistry - A European Journal 20, 15975–15980. (doi:10.1002/chem.201404573)"
+2014_10,{(H3O)[Ho(NA)2]·H2O}n,Other Families,,Ho3+,Oblate,Non-Kramers,100.0,6.0,6.0,1003331.cif,Proper,Octahedron,0.148,-0.7000000000000001,1.0175245,2014,2014,10.1002/chem.201404573,"Na, B., Zhang, X.-J., Shi, W., Zhang, Y.-Q., Wang, B.-W., Gao, C., Gao, S. & Cheng, P. 2014 Six-Coordinate Lanthanide Complexes: Slow Relaxation of Magnetization in the Dysprosium(III) Complex. Chemistry - A European Journal 20, 15975–15980. (doi:10.1002/chem.201404573)"
+2014_11,Er(trensal),Other Families,,Er3+,Prolate,Kramers,10.0,7.0,,1513876.cif,Proper,Others,0.97,,,2014,2014,10.1039/c3sc53044b,"Pedersen, K. S. et al. 2014 Modifying the properties of 4f single-ion magnets by peripheral ligand functionalisation. Chem. Sci. 5, 1650–1660. (doi:10.1039/c3sc53044b)"
+2014_11,"Er(3-I,5-Me-trensal)",Other Families,,Er3+,Prolate,Kramers,100.0,7.0,,1513877.cif,Proper,Others,0.941,,,2014,2014,10.1039/c3sc53044b,"Pedersen, K. S. et al. 2014 Modifying the properties of 4f single-ion magnets by peripheral ligand functionalisation. Chem. Sci. 5, 1650–1660. (doi:10.1039/c3sc53044b)"
+2014_11,Er(5-Cltrensal),Other Families,,Er3+,Prolate,Kramers,100.0,7.0,,1513878.cif,Proper,Others,1.102,,,2014,2014,10.1039/c3sc53044b,"Pedersen, K. S. et al. 2014 Modifying the properties of 4f single-ion magnets by peripheral ligand functionalisation. Chem. Sci. 5, 1650–1660. (doi:10.1039/c3sc53044b)"
+2014_12,Er(trensal),Other Families,,Er3+,Prolate,Kramers,100.0,7.0,,,,,,,,2014,2014,10.1039/c3cc48866g,"Lucaccini, E., Sorace, L., Perfetti, M., Costes, J.-P. & Sessoli, R. 2014 Beyond the anisotropy barrier: slow relaxation of the magnetization in both easy-axis and easy-plane Ln(trensal) complexes. Chem. Commun. 50, 1648–1651. (doi:10.1039/c3cc48866g)"
+2014_12,Er(trensal),Other Families,,Er3+,Prolate,Kramers,5.8,7.0,,,,,,,,2014,2014,10.1039/c3cc48866g,"Lucaccini, E., Sorace, L., Perfetti, M., Costes, J.-P. & Sessoli, R. 2014 Beyond the anisotropy barrier: slow relaxation of the magnetization in both easy-axis and easy-plane Ln(trensal) complexes. Chem. Commun. 50, 1648–1651. (doi:10.1039/c3cc48866g)"
+2014_12,Dy(trensal),Other Families,,Dy3+,Oblate,Kramers,100.0,7.0,,,,,,,,2014,2014,10.1039/c3cc48866g,"Lucaccini, E., Sorace, L., Perfetti, M., Costes, J.-P. & Sessoli, R. 2014 Beyond the anisotropy barrier: slow relaxation of the magnetization in both easy-axis and easy-plane Ln(trensal) complexes. Chem. Commun. 50, 1648–1651. (doi:10.1039/c3cc48866g)"
+2014_12,Dy(trensal),Other Families,,Dy3+,Oblate,Kramers,3.1,7.0,,,,,,,,2014,2014,10.1039/c3cc48866g,"Lucaccini, E., Sorace, L., Perfetti, M., Costes, J.-P. & Sessoli, R. 2014 Beyond the anisotropy barrier: slow relaxation of the magnetization in both easy-axis and easy-plane Ln(trensal) complexes. Chem. Commun. 50, 1648–1651. (doi:10.1039/c3cc48866g)"
+2014_13,[DyZn6(µ3-OH)(Gly)6(µ2-NO3)3](OH)(NO3)2-8H2O,TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,9.0,7112218.cif,Proper,Spherical tricapped trigonal prism,0.205,3.9,0.9032605,2014,2014,10.1039/c3cc49342c,"Xiong, G., Qin, X.-Y., Shi, P.-F., Hou, Y.-L., Cui, J.-Z. & Zhao, B. 2014 New strategy to construct single-ion magnets: a unique Dy@Zn6 cluster exhibiting slow magnetic relaxation. Chem. Commun. 50, 4255–4257. (doi:10.1039/c3cc49342c)"
+2014_13,[ErZn6(µ3-OH)(Gly)6(µ2-NO3)3](OH)(NO3)2-8H2O,TM near Ln,,Er3+,Prolate,Kramers,100.0,9.0,9.0,7112219.cif,Proper,Spherical tricapped trigonal prism,0.217,4.0,0.9008,2014,2014,10.1039/c3cc49342c,"Xiong, G., Qin, X.-Y., Shi, P.-F., Hou, Y.-L., Cui, J.-Z. & Zhao, B. 2014 New strategy to construct single-ion magnets: a unique Dy@Zn6 cluster exhibiting slow magnetic relaxation. Chem. Commun. 50, 4255–4257. (doi:10.1039/c3cc49342c)"
+2014_14,Dy(e-urea)8(NO3)3,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,8.0,7213599.cif,Proper,Square antiprism,0.148,-1.0,1.02505,2014,2014,10.1039/c3ce41762j,"Liu, Q.-Y., Li, Y.-L., Xiong, W.-L., Wang, Y.-L., Luo, F., Liu, C.-M. & Chen, L.-L. 2014 Urothermal synthesis of mononuclear lanthanide compounds: slow magnetization relaxation observed in Dy analogue. CrystEngComm 16, 585–590. (doi:10.1039/c3ce41762j)"
+2014_14,Tb(e-urea)8(NO3)4,Other Families,,Tb3+,Oblate,Non-Kramers,100.0,8.0,8.0,7213600.cif,Proper,Square antiprism,0.15,-0.8999999999999999,1.0225405,2014,2014,10.1039/c3ce41762j,"Liu, Q.-Y., Li, Y.-L., Xiong, W.-L., Wang, Y.-L., Luo, F., Liu, C.-M. & Chen, L.-L. 2014 Urothermal synthesis of mononuclear lanthanide compounds: slow magnetization relaxation observed in Dy analogue. CrystEngComm 16, 585–590. (doi:10.1039/c3ce41762j)"
+2014_15,"[2,6-(2,6-C6H3R2N5CH)2-C6H3]DyCl2(THF)2 (DyNCN)",Other Families,0.0,Dy3+,Oblate,Kramers,100.0,7.0,5.0,,,,,,,2014,2014,10.1038/srep05471,"Guo, Y.-N., Ungur, L., Granroth, G. E., Powell, A. K., Wu, C., Nagler, S. E., Tang, J., Chibotaru, L. F. & Cui, D. 2014 An NCN-pincer ligand dysprosium single-ion magnet showing magnetic relaxation via the second excited state. Scientific Reports 4. (doi:10.1038/srep05471)"
+2014_15,Dy0.05Lu0.95NCN,Other Families,0.0,Dy3+,Oblate,Kramers,5.0,7.0,5.0,,,,,,,2014,2014,10.1038/srep05471,"Guo, Y.-N., Ungur, L., Granroth, G. E., Powell, A. K., Wu, C., Nagler, S. E., Tang, J., Chibotaru, L. F. & Cui, D. 2014 An NCN-pincer ligand dysprosium single-ion magnet showing magnetic relaxation via the second excited state. Scientific Reports 4. (doi:10.1038/srep05471)"
+2014_16,Gd(glu)(pic)(H2O)2,Other Families,100000.0,Gd3+,Isotropic,Kramers,100.0,8.0,6.0,,Proper,,,,,2014,2014,10.1039/c3dt52748d,"Girginova, P. I., Pereira, L. C. J., Coutinho, J. T., Santos, I. C. & Almeida, M. 2014 Slow magnetic relaxation in lanthanide ladder type coordination polymers. Dalton Trans. 43, 1897–1905. (doi:10.1039/c3dt52748d)"
+2014_16,Tb(glu)(pic)(H2O)3,Other Families,100000.0,Tb3+,Oblate,Non-Kramers,100.0,8.0,6.0,7028357.cif,Proper,Square antiprism,1.749,-0.1,1.0025005,2014,2014,10.1039/c3dt52748d,"Girginova, P. I., Pereira, L. C. J., Coutinho, J. T., Santos, I. C. & Almeida, M. 2014 Slow magnetic relaxation in lanthanide ladder type coordination polymers. Dalton Trans. 43, 1897–1905. (doi:10.1039/c3dt52748d)"
+2014_16,Dy(glu)(pic)(H2O)4,Other Families,100000.0,Dy3+,Oblate,Kramers,100.0,8.0,6.0,7028358.cif,Proper,Square antiprism,1.718,-0.3,1.0075045,2014,2014,10.1039/c3dt52748d,"Girginova, P. I., Pereira, L. C. J., Coutinho, J. T., Santos, I. C. & Almeida, M. 2014 Slow magnetic relaxation in lanthanide ladder type coordination polymers. Dalton Trans. 43, 1897–1905. (doi:10.1039/c3dt52748d)"
+2014_16,Er(glu)(pic)(H2O)5,Other Families,100000.0,Er3+,Prolate,Kramers,100.0,8.0,6.0,7028359.cif,Proper,Square antiprism,1.66,-0.4,1.010008,2014,2014,10.1039/c3dt52748d,"Girginova, P. I., Pereira, L. C. J., Coutinho, J. T., Santos, I. C. & Almeida, M. 2014 Slow magnetic relaxation in lanthanide ladder type coordination polymers. Dalton Trans. 43, 1897–1905. (doi:10.1039/c3dt52748d)"
+2014_17,[Nd(hfac)3(NIT-3BrPhOMe)]n,Radical,,Nd3+,Oblate,Kramers,100.0,8.0,5.0,7028843.cif,Proper,Triangular dodecahedron,0.431,-0.6,1.015018,2014,2014,10.1039/c3dt52959b,"Hu, P., Wang, X., Ma, Y., Wang, Q., Li, L. & Liao, D. 2014 A new family of Ln–radical chains (Ln = Nd, Sm, Gd, Tb and Dy): synthesis, structure, and magnetic properties. Dalton Trans. 43, 2234–2243. (doi:10.1039/c3dt52959b)"
+2014_17,[Sm(hfac)3(NIT-3BrPhOMe)]n,Radical,,Sm3+,Prolate,Kramers,100.0,8.0,5.0,7028842.cif,Proper,Triangular dodecahedron,0.396,-0.2,1.005002,2014,2014,10.1039/c3dt52959b,"Hu, P., Wang, X., Ma, Y., Wang, Q., Li, L. & Liao, D. 2014 A new family of Ln–radical chains (Ln = Nd, Sm, Gd, Tb and Dy): synthesis, structure, and magnetic properties. Dalton Trans. 43, 2234–2243. (doi:10.1039/c3dt52959b)"
+2014_17,[Gd(hfac)3(NIT-3BrPhOMe)]n,Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,Proper,,,,,2014,2014,10.1039/c3dt52959b,"Hu, P., Wang, X., Ma, Y., Wang, Q., Li, L. & Liao, D. 2014 A new family of Ln–radical chains (Ln = Nd, Sm, Gd, Tb and Dy): synthesis, structure, and magnetic properties. Dalton Trans. 43, 2234–2243. (doi:10.1039/c3dt52959b)"
+2014_17,[Tb(hfac)3(NIT-3BrPhOMe)]n,Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,7028845.cif,Proper,Triangular dodecahedron,0.332,0.5,0.9875125,2014,2014,10.1039/c3dt52959b,"Hu, P., Wang, X., Ma, Y., Wang, Q., Li, L. & Liao, D. 2014 A new family of Ln–radical chains (Ln = Nd, Sm, Gd, Tb and Dy): synthesis, structure, and magnetic properties. Dalton Trans. 43, 2234–2243. (doi:10.1039/c3dt52959b)"
+2014_17,[Dy(hfac)3(NIT-3BrPhOMe)]n,Radical,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,7028846.cif,Proper,Triangular dodecahedron,0.379,0.3,0.9925045,2014,2014,10.1039/c3dt52959b,"Hu, P., Wang, X., Ma, Y., Wang, Q., Li, L. & Liao, D. 2014 A new family of Ln–radical chains (Ln = Nd, Sm, Gd, Tb and Dy): synthesis, structure, and magnetic properties. Dalton Trans. 43, 2234–2243. (doi:10.1039/c3dt52959b)"
+2014_18,[Dy(AlMe4)3],Other Families,,Dy3+,Oblate,Kramers,100.0,6.0,3.0,7029100.cif,Proper,,,,,2014,2014,10.1039/c3dt52337c,"König, S. N., Chilton, N. F., Maichle-Mössmer, C., Pineda, E. M., Pugh, T., Anwander, R. & Layfield, R. A. 2014 Fast magnetic relaxation in an octahedral dysprosium tetramethyl-aluminate complex. Dalton Trans. 43, 3035–3038. (doi:10.1039/c3dt52337c)"
+2014_18,[Dy(AlMe4)3],Other Families,,Dy3+,Oblate,Kramers,4.8,6.0,3.0,,Isostructural,,,,,2014,2014,10.1039/c3dt52337c,"König, S. N., Chilton, N. F., Maichle-Mössmer, C., Pineda, E. M., Pugh, T., Anwander, R. & Layfield, R. A. 2014 Fast magnetic relaxation in an octahedral dysprosium tetramethyl-aluminate complex. Dalton Trans. 43, 3035–3038. (doi:10.1039/c3dt52337c)"
+2014_20,[Er(h)3(bipy)],Diketonate,,Er3+,Prolate,Kramers,100.0,8.0,4.0,7029660.cif,Proper,Square antiprism,0.519,-3.4,1.085578,2014,2014,10.1039/c4dt00168k,"Silva, M. R., Martín-Ramos, P., Coutinho, J. T., Pereira, L. C. J. & Martín-Gil, J. 2014 Effect of the capping ligand on luminescent erbium(iii) β-diketonate single-ion magnets. Dalton Transactions 43, 6752. (doi:10.1039/c4dt00168k)"
+2014_20,[Er(h)3(5NO2phen)],Diketonate,,Er3+,Prolate,Kramers,100.0,8.0,4.0,7029659.cif,Proper,Square antiprism,1.098,-3.8,1.095722,2014,2014,10.1039/c4dt00168k,"Silva, M. R., Martín-Ramos, P., Coutinho, J. T., Pereira, L. C. J. & Martín-Gil, J. 2014 Effect of the capping ligand on luminescent erbium(iii) β-diketonate single-ion magnets. Dalton Transactions 43, 6752. (doi:10.1039/c4dt00168k)"
+2014_20,[Er(h)3(bath)],Diketonate,,Er3+,Prolate,Kramers,100.0,8.0,4.0,7029661.cif,Proper,Square antiprism,0.647,-3.3,1.0830445,2014,2014,10.1039/c4dt00168k,"Silva, M. R., Martín-Ramos, P., Coutinho, J. T., Pereira, L. C. J. & Martín-Gil, J. 2014 Effect of the capping ligand on luminescent erbium(iii) β-diketonate single-ion magnets. Dalton Transactions 43, 6752. (doi:10.1039/c4dt00168k)"
+2014_21,DyY(obPc)3,LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,7030762.cif,Proper,Square antiprism,2.4,-10.3,1.2628045,2014,2014,10.1039/c4dt00042k,"Katoh, K., Asano, R., Miura, A., Horii, Y., Morita, T., Breedlove, B. K. & Yamashita, M. 2014 Effect of f–f interactions on quantum tunnelling of the magnetization: mono- and dinuclear Dy(iii) phthalocyaninato triple-decker single-molecule magnets with the same octacoordination environment. Dalton Transactions 43, 7716. (doi:10.1039/c4dt00042k)"
+2014_22,[ZnIIDyIII(L)(DBM)3],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,7030401.cif,Proper,Triangular dodecahedron,2.686,-2.0,1.0502,2014,2014,10.1039/c4dt00740a,"Xie, Q.-W., Wu, S.-Q., Shi, W.-B., Liu, C.-M., Cui, A.-L. & Kou, H.-Z. 2014 Heterodinuclear MII–LnIII single molecule magnets constructed from exchange-coupled single ion magnets. Dalton Transactions 43, 11309. (doi:10.1039/c4dt00740a)"
+2014_23,[Tb(bipyNO)4](TfO)3·x solvent,Other Families,,Tb3+,Oblate,Non-Kramers,100.0,8.0,8.0,987654.cif,Proper,Square antiprism,1.825,-7.8,1.198042,2014,2014,10.1002/chem.201402255,"Baldoví, J. J., Coronado, E., Gaita-Ariño, A., Gamer, C., Giménez-Marqués, M. & Mínguez Espallargas, G. 2014 A SIM-MOF: Three-Dimensional Organisation of Single-Ion Magnets with Anion-Exchange Capabilities. Chemistry - A European Journal 20, 10695–10702. (doi:10.1002/chem.201402255)"
+2014_23,[Dy(bipyNO)4](TfO)3·x solvent,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,8.0,987655.cif,Proper,Square antiprism,1.565,-7.3,1.1851645,2014,2014,10.1002/chem.201402255,"Baldoví, J. J., Coronado, E., Gaita-Ariño, A., Gamer, C., Giménez-Marqués, M. & Mínguez Espallargas, G. 2014 A SIM-MOF: Three-Dimensional Organisation of Single-Ion Magnets with Anion-Exchange Capabilities. Chemistry - A European Journal 20, 10695–10702. (doi:10.1002/chem.201402255)"
+2014_23,[Dy(bipyNO)4](TfO)3·x solvent,Other Families,,Dy3+,Oblate,Kramers,9.09090909090909,8.0,8.0,,Isostructural,,,,,2014,2014,10.1002/chem.201402255,"Baldoví, J. J., Coronado, E., Gaita-Ariño, A., Gamer, C., Giménez-Marqués, M. & Mínguez Espallargas, G. 2014 A SIM-MOF: Three-Dimensional Organisation of Single-Ion Magnets with Anion-Exchange Capabilities. Chemistry - A European Journal 20, 10695–10702. (doi:10.1002/chem.201402255)"
+2014_23,[Ho(bipyNO)4](TfO)3·x solvent,Other Families,,Ho3+,Oblate,Non-Kramers,100.0,8.0,8.0,987656.cif,Proper,Square antiprism,1.753,-7.8,1.198042,2014,2014,10.1002/chem.201402255,"Baldoví, J. J., Coronado, E., Gaita-Ariño, A., Gamer, C., Giménez-Marqués, M. & Mínguez Espallargas, G. 2014 A SIM-MOF: Three-Dimensional Organisation of Single-Ion Magnets with Anion-Exchange Capabilities. Chemistry - A European Journal 20, 10695–10702. (doi:10.1002/chem.201402255)"
+2014_23,[Er(bipyNO)4](TfO)3·x solvent,Other Families,,Er3+,Prolate,Kramers,100.0,8.0,8.0,987657.cif,Proper,Square antiprism,1.803,-8.200000000000001,1.208362,2014,2014,10.1002/chem.201402255,"Baldoví, J. J., Coronado, E., Gaita-Ariño, A., Gamer, C., Giménez-Marqués, M. & Mínguez Espallargas, G. 2014 A SIM-MOF: Three-Dimensional Organisation of Single-Ion Magnets with Anion-Exchange Capabilities. Chemistry - A European Journal 20, 10695–10702. (doi:10.1002/chem.201402255)"
+2014_24,HoSc2N@C80,Other Families,,Ho3+,Oblate,Non-Kramers,100.0,,2.0,,,,,,,2014,2014,10.1002/chem.201403042,"Dreiser, J., Westerström, R., Zhang, Y., Popov, A. A., Dunsch, L., Krämer, K., Liu, S., Decurtins, S. & Greber, T. 2014 The Metallofullerene Field‐Induced Single‐Ion Magnet HoSc            2            N@C            80. Chemistry – A European Journal 20, 13536–13540. (doi:10.1002/chem.201403042)"
+2014_25,[Fe3(μ3-O)(inicH)6(H2O)3][Gd(NO3)6(H2O)]·(NO3)4·n(H2O),Other Families,,Gd3+,Isotropic,Kramers,100.0,,6.0,,Proper,,,,,2014,2014,10.1002/ejic.201402114,"Nayak, S., Novitchi, G., Hołyńska, M. & Dehnen, S. 2014 Two Heterometallic Ionic Compounds with Isolated [3d] and [4f] Complex Units: Field-Induced Single-Ion Magnet (SIM) Behavior Observed from a Mononuclear Dysprosium(III) Complex. European Journal of Inorganic Chemistry 2014, 3065–3071. (doi:10.1002/ejic.201402114)"
+2014_25,[Fe3(��3-O)(inicH)6(H2O)3][Dy(NO3)5(H2O)]·(NO3)5·n(H2O),Other Families,,Dy3+,Oblate,Kramers,100.0,10.0,6.0,974825.cif,Proper,Others,3.036,,,2014,2014,10.1002/ejic.201402114,"Nayak, S., Novitchi, G., Hołyńska, M. & Dehnen, S. 2014 Two Heterometallic Ionic Compounds with Isolated [3d] and [4f] Complex Units: Field-Induced Single-Ion Magnet (SIM) Behavior Observed from a Mononuclear Dysprosium(III) Complex. European Journal of Inorganic Chemistry 2014, 3065–3071. (doi:10.1002/ejic.201402114)"
+2014_26,[Yb(tta)3(L)]·C6H14,Diketonate,,Yb3+,Prolate,Kramers,100.0,8.0,4.0,982097.cif,Proper,Square antiprism,1.836,-3.1,1.0779805,2014,2014,10.1002/ejic.201400121,"Jung, J. et al. 2014 Magnetic Studies of Redox-Active Tetrathiafulvalene-Based Complexes: Dysprosium vs. Ytterbium Analogues. European Journal of Inorganic Chemistry 2014, 3888–3894. (doi:10.1002/ejic.201400121)"
+2014_27,[Dy(L)(LOEt)],Other Families,100.0,Dy3+,Oblate,Kramers,100.0,7.0,2.0,4337454.cif,Proper,Others,1.182,,,2014,2014,10.1021/ic4026624,"Gao, F., Cui, L., Song, Y., Li, Y.-Z. & Zuo, J.-L. 2013 Calix[4]arene-Supported Mononuclear Lanthanide Single-Molecule Magnet. Inorganic Chemistry 53, 562–567. (doi:10.1021/ic4026624)"
+2014_27,[Tb(L)(LOEt)],Other Families,100.0,Tb3+,Oblate,Non-Kramers,100.0,7.0,2.0,4337455.cif,Proper,Others,1.14,,,2014,2014,10.1021/ic4026624,"Gao, F., Cui, L., Song, Y., Li, Y.-Z. & Zuo, J.-L. 2013 Calix[4]arene-Supported Mononuclear Lanthanide Single-Molecule Magnet. Inorganic Chemistry 53, 562–567. (doi:10.1021/ic4026624)"
+2014_27,[Ho(L)(LOEt)],Other Families,100.0,Ho3+,Oblate,Non-Kramers,100.0,7.0,2.0,4337456.cif,Proper,Others,1.287,,,2014,2014,10.1021/ic4026624,"Gao, F., Cui, L., Song, Y., Li, Y.-Z. & Zuo, J.-L. 2013 Calix[4]arene-Supported Mononuclear Lanthanide Single-Molecule Magnet. Inorganic Chemistry 53, 562–567. (doi:10.1021/ic4026624)"
+2014_28,[Cs{Dy(hfac)4}],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4337112.cif,Proper,Triangular dodecahedron,0.179,1.2,0.970072,2014,2014,10.1021/ic402111v,"Zeng, D., Ren, M., Bao, S.-S. & Zheng, L.-M. 2014 Tuning the Coordination Geometries and Magnetic Dynamics of [Ln(hfac)4]− through Alkali Metal Counterions. Inorganic Chemistry 53, 795–801. (doi:10.1021/ic402111v)"
+2014_28,[Cs{Er(hfac)4}],Diketonate,,Er3+,Prolate,Kramers,100.0,8.0,4.0,4337111.cif,Proper,Triangular dodecahedron,0.202,1.8,0.955162,2014,2014,10.1021/ic402111v,"Zeng, D., Ren, M., Bao, S.-S. & Zheng, L.-M. 2014 Tuning the Coordination Geometries and Magnetic Dynamics of [Ln(hfac)4]− through Alkali Metal Counterions. Inorganic Chemistry 53, 795–801. (doi:10.1021/ic402111v)"
+2014_28,[K{Dy(hfac)4}],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4337113.cif,Proper,Square antiprism,0.821,-5.7,1.1441245,2014,2014,10.1021/ic402111v,"Zeng, D., Ren, M., Bao, S.-S. & Zheng, L.-M. 2014 Tuning the Coordination Geometries and Magnetic Dynamics of [Ln(hfac)4]− through Alkali Metal Counterions. Inorganic Chemistry 53, 795–801. (doi:10.1021/ic402111v)"
+2014_28,[K{Er(hfac)4}],Diketonate,,Er3+,Prolate,Kramers,100.0,8.0,4.0,,Isostructural,,,,,2014,2014,10.1021/ic402111v,"Zeng, D., Ren, M., Bao, S.-S. & Zheng, L.-M. 2014 Tuning the Coordination Geometries and Magnetic Dynamics of [Ln(hfac)4]− through Alkali Metal Counterions. Inorganic Chemistry 53, 795–801. (doi:10.1021/ic402111v)"
+2014_29,[Zn(μ-L)(μ-OAc)Tb(NO3)2],TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,9.0,5.0,4337297.cif,Proper,Muffin,2.335,-3.3,1.0830445,2014,2014,10.1021/ic402597s,"Palacios, M. A., Titos-Padilla, S., Ruiz, J., Herrera, J. M., Pope, S. J. A., Brechin, E. K. & Colacio, E. 2013 Bifunctional ZnIILnIII Dinuclear Complexes Combining Field Induced SMM Behavior and Luminescence: Enhanced NIR Lanthanide Emission by 9-Anthracene Carboxylate Bridging Ligands. Inorganic Chemistry 53, 1465–1474. (doi:10.1021/ic402597s)"
+2014_29,[Zn(μ-L)(μ-OAc)Dy(NO3)2],TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,5.0,,Isostructural,,,,,2014,2014,10.1021/ic402597s,"Palacios, M. A., Titos-Padilla, S., Ruiz, J., Herrera, J. M., Pope, S. J. A., Brechin, E. K. & Colacio, E. 2013 Bifunctional ZnIILnIII Dinuclear Complexes Combining Field Induced SMM Behavior and Luminescence: Enhanced NIR Lanthanide Emission by 9-Anthracene Carboxylate Bridging Ligands. Inorganic Chemistry 53, 1465–1474. (doi:10.1021/ic402597s)"
+2014_29,[Zn(μ-L)(μ-OAc)Er(NO3)2],TM near Ln,,Er3+,Prolate,Kramers,100.0,9.0,5.0,4337298.cif,Proper,Others,9.993,,,2014,2014,10.1021/ic402597s,"Palacios, M. A., Titos-Padilla, S., Ruiz, J., Herrera, J. M., Pope, S. J. A., Brechin, E. K. & Colacio, E. 2013 Bifunctional ZnIILnIII Dinuclear Complexes Combining Field Induced SMM Behavior and Luminescence: Enhanced NIR Lanthanide Emission by 9-Anthracene Carboxylate Bridging Ligands. Inorganic Chemistry 53, 1465–1474. (doi:10.1021/ic402597s)"
+2014_29,[Zn(μ-L)(μ-OAc)Yb(NO3)2],TM near Ln,,Yb3+,Prolate,Kramers,100.0,9.0,5.0,4337299.cif,Proper,Others,10.118,,,2014,2014,10.1021/ic402597s,"Palacios, M. A., Titos-Padilla, S., Ruiz, J., Herrera, J. M., Pope, S. J. A., Brechin, E. K. & Colacio, E. 2013 Bifunctional ZnIILnIII Dinuclear Complexes Combining Field Induced SMM Behavior and Luminescence: Enhanced NIR Lanthanide Emission by 9-Anthracene Carboxylate Bridging Ligands. Inorganic Chemistry 53, 1465–1474. (doi:10.1021/ic402597s)"
+2014_29,[Zn(μ-L)(μ-NO3)Er(NO3)2],TM near Ln,,Er3+,Prolate,Kramers,100.0,9.0,5.0,4337300.cif,Proper,Others,9.948,,,2014,2014,10.1021/ic402597s,"Palacios, M. A., Titos-Padilla, S., Ruiz, J., Herrera, J. M., Pope, S. J. A., Brechin, E. K. & Colacio, E. 2013 Bifunctional ZnIILnIII Dinuclear Complexes Combining Field Induced SMM Behavior and Luminescence: Enhanced NIR Lanthanide Emission by 9-Anthracene Carboxylate Bridging Ligands. Inorganic Chemistry 53, 1465–1474. (doi:10.1021/ic402597s)"
+2014_29,[Zn(H2O)(μ-L)Nd(NO3)3]·2CH3OH,TM near Ln,,Nd3+,Oblate,Kramers,100.0,,5.0,4337301.cif,Proper,Biaugmented trigonal prism,8.913,8.4,0.793528,2014,2014,10.1021/ic402597s,"Palacios, M. A., Titos-Padilla, S., Ruiz, J., Herrera, J. M., Pope, S. J. A., Brechin, E. K. & Colacio, E. 2013 Bifunctional ZnIILnIII Dinuclear Complexes Combining Field Induced SMM Behavior and Luminescence: Enhanced NIR Lanthanide Emission by 9-Anthracene Carboxylate Bridging Ligands. Inorganic Chemistry 53, 1465–1474. (doi:10.1021/ic402597s)"
+2014_29,[Zn(μ-L)(μ-9-An)Tb(NO3)2]·2CH3CN,TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,9.0,5.0,4337302.cif,Proper,Others,8.709,,,2014,2014,10.1021/ic402597s,"Palacios, M. A., Titos-Padilla, S., Ruiz, J., Herrera, J. M., Pope, S. J. A., Brechin, E. K. & Colacio, E. 2013 Bifunctional ZnIILnIII Dinuclear Complexes Combining Field Induced SMM Behavior and Luminescence: Enhanced NIR Lanthanide Emission by 9-Anthracene Carboxylate Bridging Ligands. Inorganic Chemistry 53, 1465–1474. (doi:10.1021/ic402597s)"
+2014_29,[Zn(μ-L)(μ-9-An)Dy(NO3)2]·2CH3CN,TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,5.0,4337303.cif,Proper,Others,11.686,,,2014,2014,10.1021/ic402597s,"Palacios, M. A., Titos-Padilla, S., Ruiz, J., Herrera, J. M., Pope, S. J. A., Brechin, E. K. & Colacio, E. 2013 Bifunctional ZnIILnIII Dinuclear Complexes Combining Field Induced SMM Behavior and Luminescence: Enhanced NIR Lanthanide Emission by 9-Anthracene Carboxylate Bridging Ligands. Inorganic Chemistry 53, 1465–1474. (doi:10.1021/ic402597s)"
+2014_29,[Zn(μ-L)(μ-9-An)Er(NO3)2]·2CH3CN,TM near Ln,,Er3+,Prolate,Kramers,100.0,9.0,5.0,4337304.cif,Proper,Others,8.615,,,2014,2014,10.1021/ic402597s,"Palacios, M. A., Titos-Padilla, S., Ruiz, J., Herrera, J. M., Pope, S. J. A., Brechin, E. K. & Colacio, E. 2013 Bifunctional ZnIILnIII Dinuclear Complexes Combining Field Induced SMM Behavior and Luminescence: Enhanced NIR Lanthanide Emission by 9-Anthracene Carboxylate Bridging Ligands. Inorganic Chemistry 53, 1465–1474. (doi:10.1021/ic402597s)"
+2014_29,[Zn(μ-L)(μ-9-An)Yb(NO3)2]·2CH3CN,TM near Ln,,Yb3+,Prolate,Kramers,100.0,9.0,5.0,4337305.cif,Proper,Others,8.578,,,2014,2014,10.1021/ic402597s,"Palacios, M. A., Titos-Padilla, S., Ruiz, J., Herrera, J. M., Pope, S. J. A., Brechin, E. K. & Colacio, E. 2013 Bifunctional ZnIILnIII Dinuclear Complexes Combining Field Induced SMM Behavior and Luminescence: Enhanced NIR Lanthanide Emission by 9-Anthracene Carboxylate Bridging Ligands. Inorganic Chemistry 53, 1465–1474. (doi:10.1021/ic402597s)"
+2014_29,[Zn(μ-L)(μ-9-An)Yb(9-An)(NO3)3]·3CH3CN,TM near Ln,,Yb3+,Prolate,Kramers,100.0,9.0,5.0,4337306.cif,Proper,Others,11.768,,,2014,2014,10.1021/ic402597s,"Palacios, M. A., Titos-Padilla, S., Ruiz, J., Herrera, J. M., Pope, S. J. A., Brechin, E. K. & Colacio, E. 2013 Bifunctional ZnIILnIII Dinuclear Complexes Combining Field Induced SMM Behavior and Luminescence: Enhanced NIR Lanthanide Emission by 9-Anthracene Carboxylate Bridging Ligands. Inorganic Chemistry 53, 1465–1474. (doi:10.1021/ic402597s)"
+2014_29,[Zn(μ-L)(μ-9-An)Nd(9-An)(NO3)3]·2CH3CN·3H2O,TM near Ln,,Nd3+,Oblate,Kramers,100.0,9.0,5.0,4337307.cif,Proper,Others,10.476,,,2014,2014,10.1021/ic402597s,"Palacios, M. A., Titos-Padilla, S., Ruiz, J., Herrera, J. M., Pope, S. J. A., Brechin, E. K. & Colacio, E. 2013 Bifunctional ZnIILnIII Dinuclear Complexes Combining Field Induced SMM Behavior and Luminescence: Enhanced NIR Lanthanide Emission by 9-Anthracene Carboxylate Bridging Ligands. Inorganic Chemistry 53, 1465–1474. (doi:10.1021/ic402597s)"
+2014_29,[Zn(μ-L)(μ-9-An)Nd(CH3OH)2(NO3)]-ClO4·2CH3OH,TM near Ln,,Nd3+,Oblate,Kramers,100.0,9.0,5.0,4337308.cif,Proper,,,,,2014,2014,10.1021/ic402597s,"Palacios, M. A., Titos-Padilla, S., Ruiz, J., Herrera, J. M., Pope, S. J. A., Brechin, E. K. & Colacio, E. 2013 Bifunctional ZnIILnIII Dinuclear Complexes Combining Field Induced SMM Behavior and Luminescence: Enhanced NIR Lanthanide Emission by 9-Anthracene Carboxylate Bridging Ligands. Inorganic Chemistry 53, 1465–1474. (doi:10.1021/ic402597s)"
+2014_30,"DyIII N,N′-bis(imine-2-yl)methylene-1,8-diamino-3,6-dioxaoctane",Schiff Base,,Dy3+,Oblate,Kramers,100.0,,3.0,4337804.cif,Proper,Others,12.84,,,2014,2014,10.1021/ic402950j,"Campbell, V. E., Bolvin, H., Rivière, E., Guillot, R., Wernsdorfer, W. & Mallah, T. 2014 Structural and Electronic Dependence of the Single-Molecule-Magnet Behavior of Dysprosium(III) Complexes. Inorganic Chemistry 53, 2598–2605. (doi:10.1021/ic402950j)"
+2014_30,"DyIII N,N′-Bis(amine-2-yl)methylene-1,8-diamino-3,6-dioxaoctane",Other Families,0.0,Dy3+,Oblate,Kramers,100.0,,3.0,4337803.cif,Proper,Others,2.134,,,2014,2014,10.1021/ic402950j,"Campbell, V. E., Bolvin, H., Rivière, E., Guillot, R., Wernsdorfer, W. & Mallah, T. 2014 Structural and Electronic Dependence of the Single-Molecule-Magnet Behavior of Dysprosium(III) Complexes. Inorganic Chemistry 53, 2598–2605. (doi:10.1021/ic402950j)"
+2014_31,[PrIII(L)3(H2O)2]·H2O,P=O,,Pr3+,Oblate,Non-Kramers,100.0,8.0,5.0,4337811.cif,Proper,Others,16.89,,,2014,2014,10.1021/ic403104y,"Maxim, C., Branzea, D. G., Tiseanu, C., Rouzières, M., Clérac, R., Andruh, M. & Avarvari, N. 2014 Cyanomethylene-bis(phosphonate)-Based Lanthanide Complexes: Structural, Photophysical, and Magnetic Investigations. Inorganic Chemistry 53, 2708–2717. (doi:10.1021/ic403104y)"
+2014_31,[NdIII(L)3(H2O)2]·H2O,P=O,,Nd3+,Oblate,Kramers,100.0,8.0,5.0,4337812.cif,Proper,Others,16.892,,,2014,2014,10.1021/ic403104y,"Maxim, C., Branzea, D. G., Tiseanu, C., Rouzières, M., Clérac, R., Andruh, M. & Avarvari, N. 2014 Cyanomethylene-bis(phosphonate)-Based Lanthanide Complexes: Structural, Photophysical, and Magnetic Investigations. Inorganic Chemistry 53, 2708–2717. (doi:10.1021/ic403104y)"
+2014_31,[SmIII(L)3(H2O)2]·H2O,P=O,,Sm3+,Prolate,Kramers,100.0,8.0,5.0,4337813.cif,Proper,Others,18.936,,,2014,2014,10.1021/ic403104y,"Maxim, C., Branzea, D. G., Tiseanu, C., Rouzières, M., Clérac, R., Andruh, M. & Avarvari, N. 2014 Cyanomethylene-bis(phosphonate)-Based Lanthanide Complexes: Structural, Photophysical, and Magnetic Investigations. Inorganic Chemistry 53, 2708–2717. (doi:10.1021/ic403104y)"
+2014_31,[GdIII(L)3(H2O)]·8H2O,P=O,,Gd3+,Isotropic,Kramers,100.0,7.0,4.0,,Proper,,,,,2014,2014,10.1021/ic403104y,"Maxim, C., Branzea, D. G., Tiseanu, C., Rouzières, M., Clérac, R., Andruh, M. & Avarvari, N. 2014 Cyanomethylene-bis(phosphonate)-Based Lanthanide Complexes: Structural, Photophysical, and Magnetic Investigations. Inorganic Chemistry 53, 2708–2717. (doi:10.1021/ic403104y)"
+2014_31,[TbIII(L)3(H2O)]·8H2O,P=O,,Tb3+,Oblate,Non-Kramers,100.0,7.0,4.0,4337816.cif,Proper,Others,20.721,,,2014,2014,10.1021/ic403104y,"Maxim, C., Branzea, D. G., Tiseanu, C., Rouzières, M., Clérac, R., Andruh, M. & Avarvari, N. 2014 Cyanomethylene-bis(phosphonate)-Based Lanthanide Complexes: Structural, Photophysical, and Magnetic Investigations. Inorganic Chemistry 53, 2708–2717. (doi:10.1021/ic403104y)"
+2014_31,[DyIII(L)3(H2O)]·8H2O,P=O,,Dy3+,Oblate,Kramers,100.0,7.0,4.0,4337817.cif,Proper,Others,20.597,,,2014,2014,10.1021/ic403104y,"Maxim, C., Branzea, D. G., Tiseanu, C., Rouzières, M., Clérac, R., Andruh, M. & Avarvari, N. 2014 Cyanomethylene-bis(phosphonate)-Based Lanthanide Complexes: Structural, Photophysical, and Magnetic Investigations. Inorganic Chemistry 53, 2708–2717. (doi:10.1021/ic403104y)"
+2014_31,[HoIII(L)3(H2O)]·8H2O,P=O,,Ho3+,Oblate,Non-Kramers,100.0,7.0,4.0,4337818.cif,Proper,Others,20.41,,,2014,2014,10.1021/ic403104y,"Maxim, C., Branzea, D. G., Tiseanu, C., Rouzières, M., Clérac, R., Andruh, M. & Avarvari, N. 2014 Cyanomethylene-bis(phosphonate)-Based Lanthanide Complexes: Structural, Photophysical, and Magnetic Investigations. Inorganic Chemistry 53, 2708–2717. (doi:10.1021/ic403104y)"
+2014_31,[ErIII(L)3(H2O)]·8H2O,P=O,,Er3+,Prolate,Kramers,100.0,7.0,4.0,4337819.cif,Proper,Others,20.458,,,2014,2014,10.1021/ic403104y,"Maxim, C., Branzea, D. G., Tiseanu, C., Rouzières, M., Clérac, R., Andruh, M. & Avarvari, N. 2014 Cyanomethylene-bis(phosphonate)-Based Lanthanide Complexes: Structural, Photophysical, and Magnetic Investigations. Inorganic Chemistry 53, 2708–2717. (doi:10.1021/ic403104y)"
+2014_32,[ZnCl(µ-L)Dy(µ-L)ClZn][ZnCl3(CH3OH)]·3CH3OH,TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,996361.cif,Proper,Others,13.834,,,2014,2014,10.1002/chem.201403670,"Oyarzabal, I., Ruiz, J., Seco, J. M., Evangelisti, M., Camón, A., Ruiz, E., Aravena, D. & Colacio, E. 2014 Rational Electrostatic Design of Easy-Axis Magnetic Anisotropy in a ZnII-DyIII-ZnIISingle-Molecule Magnet with a High Energy Barrier. Chemistry - A European Journal 20, 14262–14269. (doi:10.1002/chem.201403670)"
+2014_32,[ZnCl(µ-L)Er(µ-L)ClZn][ZnCl3(CH3OH)]·3CH3OH,TM near Ln,,Er3+,Prolate,Kramers,100.0,8.0,2.0,996362.cif,Proper,Others,13.629,,,2014,2014,10.1002/chem.201403670,"Oyarzabal, I., Ruiz, J., Seco, J. M., Evangelisti, M., Camón, A., Ruiz, E., Aravena, D. & Colacio, E. 2014 Rational Electrostatic Design of Easy-Axis Magnetic Anisotropy in a ZnII-DyIII-ZnIISingle-Molecule Magnet with a High Energy Barrier. Chemistry - A European Journal 20, 14262–14269. (doi:10.1002/chem.201403670)"
+2014_33,[Hex4N][Dy(DBM)4],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4348222.cif,Proper,Square antiprism,0.29,-2.9,1.0729205,2014,2014,10.1039/c4qi00057a,"Sun, W.-B., Yan, B., Zhang, Y.-Q., Wang, B.-W., Wang, Z.-M., Jia, J.-H. & Gao, S. 2014 The slow magnetic relaxation regulated by ligand conformation of a lanthanide single-ion magnet [Hex4N][Dy(DBM)4]. Inorg. Chem. Front. 1, 503–509. (doi:10.1039/c4qi00057a)"
+2014_33,[Hex4N][Dy(DBM)4],Diketonate,,Dy3+,Oblate,Kramers,5.0,8.0,4.0,,Isostructural,,,,,2014,2014,10.1039/c4qi00057a,"Sun, W.-B., Yan, B., Zhang, Y.-Q., Wang, B.-W., Wang, Z.-M., Jia, J.-H. & Gao, S. 2014 The slow magnetic relaxation regulated by ligand conformation of a lanthanide single-ion magnet [Hex4N][Dy(DBM)4]. Inorg. Chem. Front. 1, 503–509. (doi:10.1039/c4qi00057a)"
+2014_34,“fac”-[TbIII(HLDL‑ala)3]·7H2O,Other Families,,Tb3+,Oblate,Non-Kramers,100.0,9.0,3.0,4338717.cif,Proper,Spherical tricapped trigonal prism,1.096,7.199999999999999,0.822592,2014,2014,10.1021/ic5001599,"Yamauchi, S. et al. 2014 Synthesis, Structure, Luminescence, and Magnetic Properties of a Single-Ion Magnet ‘mer’-[Tris(N-[(imidazol-4-yl)-methylidene]-dl-phenylalaninato)terbium(III) and Related ‘fac’-dl-Alaninato Derivative. Inorganic Chemistry 53, 5961–5971. (doi:10.1021/ic5001599)"
+2014_34,“mer”-[TbIII(HLDL‑phe)3]·7H2O,Other Families,,Tb3+,Oblate,Non-Kramers,100.0,9.0,3.0,4338718.cif,Proper,Spherical capped square antiprism,1.352,0.5,0.9875125,2014,2014,10.1021/ic5001599,"Yamauchi, S. et al. 2014 Synthesis, Structure, Luminescence, and Magnetic Properties of a Single-Ion Magnet ‘mer’-[Tris(N-[(imidazol-4-yl)-methylidene]-dl-phenylalaninato)terbium(III) and Related ‘fac’-dl-Alaninato Derivative. Inorganic Chemistry 53, 5961–5971. (doi:10.1021/ic5001599)"
+2014_35,[Er(thd)3(bath)],Diketonate,,Er3+,Prolate,Kramers,100.0,8.0,4.0,956556.cif,Proper,Square antiprism,0.55,-3.6,1.090648,2014,2014,10.1002/ejic.201301076,"Martín-Ramos, P., Ramos Silva, M., Coutinho, J. T., Pereira, L. C. J., Chamorro-Posada, P. & Martín-Gil, J. 2013 Single-Ion Magnetism in a Luminescent Er3+β-Diketonato Complex with Multiple Relaxation Mechanisms. European Journal of Inorganic Chemistry 2014, 511–517. (doi:10.1002/ejic.201301076)"
+2014_36,Dy(TFI)3(H2O)2,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4340852.cif,Proper,Square antiprism,1.003,-3.5,1.0881125,2014,2014,10.1021/ic500501r,"Zhu, J., Wang, C., Luan, F., Liu, T., Yan, P. & Li, G. 2014 Local Coordination Geometry Perturbed β-Diketone Dysprosium Single-Ion Magnets. Inorganic Chemistry 53, 8895–8901. (doi:10.1021/ic500501r)"
+2014_36,Dy(TFI)3(bpy),Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4340853.cif,Proper,Triangular dodecahedron,0.41,2.8,0.930392,2014,2014,10.1021/ic500501r,"Zhu, J., Wang, C., Luan, F., Liu, T., Yan, P. & Li, G. 2014 Local Coordination Geometry Perturbed β-Diketone Dysprosium Single-Ion Magnets. Inorganic Chemistry 53, 8895–8901. (doi:10.1021/ic500501r)"
+2014_36,[Dy(TFI)3(Phen)]·0.02CHCl3,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4340854.cif,Proper,Square antiprism,0.516,-3.8,1.095722,2014,2014,10.1021/ic500501r,"Zhu, J., Wang, C., Luan, F., Liu, T., Yan, P. & Li, G. 2014 Local Coordination Geometry Perturbed β-Diketone Dysprosium Single-Ion Magnets. Inorganic Chemistry 53, 8895–8901. (doi:10.1021/ic500501r)"
+2014_37,Tb(Pc)2,LnPc2,,Tb3+,Oblate,Non-Kramers,2.0,8.0,2.0,,,,,,,2014,2014,10.1021/ic501028f,"Fukuda, T., Shigeyoshi, N., Yamamura, T. & Ishikawa, N. 2014 Magnetic Relaxations Arising from Spin–Phonon Interactions in the Nonthermally Activated Temperature Range for a Double-Decker Terbium Phthalocyanine Single Molecule Magnet. Inorganic Chemistry 53, 9080–9086. (doi:10.1021/ic501028f)"
+2014_38,[Tb(acac)3NIT2Py]·0.5H2O,Diketonate,,Tb3+,Oblate,Non-Kramers,100.0,8.0,6.0,992456.cif,Proper,Square antiprism,0.632,-3.7,1.0931845,2014,2014,10.1021/ic500779y,"Lannes, A., Intissar, M., Suffren, Y., Reber, C. & Luneau, D. 2014 Terbium(III) and Yttrium(III) Complexes with Pyridine-Substituted Nitronyl Nitroxide Radical and Different β-Diketonate Ligands. Crystal Structures and Magnetic and Luminescence Properties. Inorganic Chemistry 53, 9548–9560. (doi:10.1021/ic500779y)"
+2014_39,[Pc–Dy–Pc*]0,LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,912132.cif,Isostructural,Square antiprism,0.596,-6.4,1.162048,2014,2014,10.1002/ejic.201402421,"Klyatskaya, S., Eichhöfer, A. & Wernsdorfer, W. 2014 X-ray Crystallographic Analysis of a Tailor-Made Bis(phthalocyaninato)-TbIIISingle-Molecule Magnet as a Fundamental Unit for Supramolecular Spintronic Devices. European Journal of Inorganic Chemistry 2014, 4179–4185. (doi:10.1002/ejic.201402421)"
+2014_39,[Pc–Ho–Pc*]0,LnPc2,,Ho3+,Oblate,Non-Kramers,100.0,8.0,2.0,,Isostructural,,,,,2014,2014,10.1002/ejic.201402421,"Klyatskaya, S., Eichhöfer, A. & Wernsdorfer, W. 2014 X-ray Crystallographic Analysis of a Tailor-Made Bis(phthalocyaninato)-TbIIISingle-Molecule Magnet as a Fundamental Unit for Supramolecular Spintronic Devices. European Journal of Inorganic Chemistry 2014, 4179–4185. (doi:10.1002/ejic.201402421)"
+2014_40,[Nd(W5O18)2]9−,POM,,Nd3+,Oblate,Kramers,100.0,8.0,2.0,4340938.cif,Proper,Square antiprism,0.078,-0.8,1.020032,2014,2014,10.1021/ic501867d,"Baldoví, J. J., Clemente-Juan, J. M., Coronado, E., Duan, Y., Gaita-Ariño, A. & Giménez-Saiz, C. 2014 Construction of a General Library for the Rational Design of Nanomagnets and Spin Qubits Based on Mononuclear f-Block Complexes. The Polyoxometalate Case. Inorganic Chemistry 53, 9976–9980. (doi:10.1021/ic501867d)"
+2014_42,Dy[N(SiMe3)2]2,Other Families,,Dy3+,Oblate,Kramers,100.0,3.0,3.0,,,,,,,2014,2014,10.1021/ja500793x,"Zhang, P., Zhang, L., Wang, C., Xue, S., Lin, S.-Y. & Tang, J. 2014 Equatorially Coordinated Lanthanide Single Ion Magnets. Journal of the American Chemical Society 136, 4484–4487. (doi:10.1021/ja500793x)"
+2014_42,Er[N(SiMe3)2]3,Other Families,,Er3+,Prolate,Kramers,100.0,3.0,3.0,,,,,,,2014,2014,10.1021/ja500793x,"Zhang, P., Zhang, L., Wang, C., Xue, S., Lin, S.-Y. & Tang, J. 2014 Equatorially Coordinated Lanthanide Single Ion Magnets. Journal of the American Chemical Society 136, 4484–4487. (doi:10.1021/ja500793x)"
+2014_42,Dy(NHPhiPr2)3(THF)2,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,5.0,5.0,4121538.cif,Proper,Others,2.821,,,2014,2014,10.1021/ja500793x,"Zhang, P., Zhang, L., Wang, C., Xue, S., Lin, S.-Y. & Tang, J. 2014 Equatorially Coordinated Lanthanide Single Ion Magnets. Journal of the American Chemical Society 136, 4484–4487. (doi:10.1021/ja500793x)"
+2014_42,Er(NHPhiPr2)3(THF)2,Other Families,0.0,Er3+,Prolate,Kramers,100.0,5.0,5.0,4121539.cif,Proper,Others,2.509,,,2014,2014,10.1021/ja500793x,"Zhang, P., Zhang, L., Wang, C., Xue, S., Lin, S.-Y. & Tang, J. 2014 Equatorially Coordinated Lanthanide Single Ion Magnets. Journal of the American Chemical Society 136, 4484–4487. (doi:10.1021/ja500793x)"
+2014_43,Tb(BpMe)3,Other Families,,Tb3+,Oblate,Non-Kramers,14.0,9.0,3.0,4121652.cif,Isostructural,,,,,2014,2014,10.1021/ja501569t,"Meihaus, K. R., Minasian, S. G., Lukens, W. W., Kozimor, S. A., Shuh, D. K., Tyliszczak, T. & Long, J. R. 2014 Influence of Pyrazolate vs N-Heterocyclic Carbene Ligands on the Slow Magnetic Relaxation of Homoleptic Trischelate Lanthanide(III) and Uranium(III) Complexes. Journal of the American Chemical Society 136, 6056–6068. (doi:10.1021/ja501569t)"
+2014_43,Tb(BpMe)3,Other Families,,Tb3+,Oblate,Non-Kramers,100.0,9.0,3.0,,Proper,,,,,2014,2014,10.1021/ja501569t,"Meihaus, K. R., Minasian, S. G., Lukens, W. W., Kozimor, S. A., Shuh, D. K., Tyliszczak, T. & Long, J. R. 2014 Influence of Pyrazolate vs N-Heterocyclic Carbene Ligands on the Slow Magnetic Relaxation of Homoleptic Trischelate Lanthanide(III) and Uranium(III) Complexes. Journal of the American Chemical Society 136, 6056–6068. (doi:10.1021/ja501569t)"
+2014_43,Tb(BpMe)3,Other Families,,Tb3+,Oblate,Non-Kramers,11.0,9.0,3.0,,Isostructural,,,,,2014,2014,10.1021/ja501569t,"Meihaus, K. R., Minasian, S. G., Lukens, W. W., Kozimor, S. A., Shuh, D. K., Tyliszczak, T. & Long, J. R. 2014 Influence of Pyrazolate vs N-Heterocyclic Carbene Ligands on the Slow Magnetic Relaxation of Homoleptic Trischelate Lanthanide(III) and Uranium(III) Complexes. Journal of the American Chemical Society 136, 6056–6068. (doi:10.1021/ja501569t)"
+2014_43,Dy(BpMe)3,Other Families,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,4121643.cif,Proper,,,,,2014,2014,10.1021/ja501569t,"Meihaus, K. R., Minasian, S. G., Lukens, W. W., Kozimor, S. A., Shuh, D. K., Tyliszczak, T. & Long, J. R. 2014 Influence of Pyrazolate vs N-Heterocyclic Carbene Ligands on the Slow Magnetic Relaxation of Homoleptic Trischelate Lanthanide(III) and Uranium(III) Complexes. Journal of the American Chemical Society 136, 6056–6068. (doi:10.1021/ja501569t)"
+2014_43,Ho(BpMe)3,Other Families,,Ho3+,Oblate,Non-Kramers,100.0,9.0,3.0,4121642.cif,Proper,,,,,2014,2014,10.1021/ja501569t,"Meihaus, K. R., Minasian, S. G., Lukens, W. W., Kozimor, S. A., Shuh, D. K., Tyliszczak, T. & Long, J. R. 2014 Influence of Pyrazolate vs N-Heterocyclic Carbene Ligands on the Slow Magnetic Relaxation of Homoleptic Trischelate Lanthanide(III) and Uranium(III) Complexes. Journal of the American Chemical Society 136, 6056–6068. (doi:10.1021/ja501569t)"
+2014_43,Er(BpMe)3,Other Families,,Er3+,Prolate,Kramers,100.0,9.0,3.0,4121650.cif,Proper,,,,,2014,2014,10.1021/ja501569t,"Meihaus, K. R., Minasian, S. G., Lukens, W. W., Kozimor, S. A., Shuh, D. K., Tyliszczak, T. & Long, J. R. 2014 Influence of Pyrazolate vs N-Heterocyclic Carbene Ligands on the Slow Magnetic Relaxation of Homoleptic Trischelate Lanthanide(III) and Uranium(III) Complexes. Journal of the American Chemical Society 136, 6056–6068. (doi:10.1021/ja501569t)"
+2014_43,Tb(BcMe)3,Other Families,,Tb3+,Oblate,Non-Kramers,100.0,9.0,3.0,4121646.cif,Proper,,,,,2014,2014,10.1021/ja501569t,"Meihaus, K. R., Minasian, S. G., Lukens, W. W., Kozimor, S. A., Shuh, D. K., Tyliszczak, T. & Long, J. R. 2014 Influence of Pyrazolate vs N-Heterocyclic Carbene Ligands on the Slow Magnetic Relaxation of Homoleptic Trischelate Lanthanide(III) and Uranium(III) Complexes. Journal of the American Chemical Society 136, 6056–6068. (doi:10.1021/ja501569t)"
+2014_43,Tb(BcMe)3,Other Families,,Tb3+,Oblate,Non-Kramers,11.0,9.0,3.0,,Isostructural,,,,,2014,2014,10.1021/ja501569t,"Meihaus, K. R., Minasian, S. G., Lukens, W. W., Kozimor, S. A., Shuh, D. K., Tyliszczak, T. & Long, J. R. 2014 Influence of Pyrazolate vs N-Heterocyclic Carbene Ligands on the Slow Magnetic Relaxation of Homoleptic Trischelate Lanthanide(III) and Uranium(III) Complexes. Journal of the American Chemical Society 136, 6056–6068. (doi:10.1021/ja501569t)"
+2014_43,Dy(BcMe)3,Other Families,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,4121645.cif,Proper,,,,,2014,2014,10.1021/ja501569t,"Meihaus, K. R., Minasian, S. G., Lukens, W. W., Kozimor, S. A., Shuh, D. K., Tyliszczak, T. & Long, J. R. 2014 Influence of Pyrazolate vs N-Heterocyclic Carbene Ligands on the Slow Magnetic Relaxation of Homoleptic Trischelate Lanthanide(III) and Uranium(III) Complexes. Journal of the American Chemical Society 136, 6056–6068. (doi:10.1021/ja501569t)"
+2014_43,Dy(BcMe)3,Other Families,,Dy3+,Oblate,Kramers,12.0,9.0,3.0,,Isostructural,,,,,2014,2014,10.1021/ja501569t,"Meihaus, K. R., Minasian, S. G., Lukens, W. W., Kozimor, S. A., Shuh, D. K., Tyliszczak, T. & Long, J. R. 2014 Influence of Pyrazolate vs N-Heterocyclic Carbene Ligands on the Slow Magnetic Relaxation of Homoleptic Trischelate Lanthanide(III) and Uranium(III) Complexes. Journal of the American Chemical Society 136, 6056–6068. (doi:10.1021/ja501569t)"
+2014_43,Ho(BcMe)3,Other Families,,Ho3+,Oblate,Non-Kramers,100.0,9.0,3.0,4121651.cif,Proper,,,,,2014,2014,10.1021/ja501569t,"Meihaus, K. R., Minasian, S. G., Lukens, W. W., Kozimor, S. A., Shuh, D. K., Tyliszczak, T. & Long, J. R. 2014 Influence of Pyrazolate vs N-Heterocyclic Carbene Ligands on the Slow Magnetic Relaxation of Homoleptic Trischelate Lanthanide(III) and Uranium(III) Complexes. Journal of the American Chemical Society 136, 6056–6068. (doi:10.1021/ja501569t)"
+2014_43,Er(BcMe)3,Other Families,,Er3+,Prolate,Kramers,100.0,9.0,3.0,4121644.cif,Proper,,,,,2014,2014,10.1021/ja501569t,"Meihaus, K. R., Minasian, S. G., Lukens, W. W., Kozimor, S. A., Shuh, D. K., Tyliszczak, T. & Long, J. R. 2014 Influence of Pyrazolate vs N-Heterocyclic Carbene Ligands on the Slow Magnetic Relaxation of Homoleptic Trischelate Lanthanide(III) and Uranium(III) Complexes. Journal of the American Chemical Society 136, 6056–6068. (doi:10.1021/ja501569t)"
+2014_44,[TbIII(H3L)(OAc)](ClO4)2·MeOH·H2O,Mixed Ligands,101000.0,Tb3+,Oblate,Non-Kramers,100.0,9.0,4.0,4341558.cif,Proper,Spherical tricapped trigonal prism,1.728,2.7,0.9328645,2014,2014,10.1021/ic501453h,"Shintoyo, S. et al. 2014 Crystal Field Splitting of the Ground State of Terbium(III) and Dysprosium(III) Complexes with a Triimidazolyl Tripod Ligand and an Acetate Determined by Magnetic Analysis and Luminescence. Inorganic Chemistry 53, 10359–10369. (doi:10.1021/ic501453h)"
+2014_44,[DyIII(H3L)(OAc)](ClO4)2·MeOH·H2O,Mixed Ligands,101000.0,Dy3+,Oblate,Kramers,100.0,9.0,4.0,4341559.cif,Proper,Spherical tricapped trigonal prism,1.621,2.7,0.9328645,2014,2014,10.1021/ic501453h,"Shintoyo, S. et al. 2014 Crystal Field Splitting of the Ground State of Terbium(III) and Dysprosium(III) Complexes with a Triimidazolyl Tripod Ligand and an Acetate Determined by Magnetic Analysis and Luminescence. Inorganic Chemistry 53, 10359–10369. (doi:10.1021/ic501453h)"
+2014_45,[Gd(hfac)3(NIT-C3H5)(H2O)],Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,Proper,,,,,2014,2014,10.1039/c4nj00627e,"Hu, P., Sun, Z., Wang, X., Li, L., Liao, D. & Luneau, D. 2014 Magnetic relaxation in mononuclear Tb complex involving a nitronyl nitroxide ligand. New J. Chem. 38, 4716–4721. (doi:10.1039/c4nj00627e)"
+2014_45,[Tb(hfac)3(NIT-C3H5)(H2O)],Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,7054262.cif,Proper,Square antiprism,0.473,-4.5,1.1135125,2014,2014,10.1039/c4nj00627e,"Hu, P., Sun, Z., Wang, X., Li, L., Liao, D. & Luneau, D. 2014 Magnetic relaxation in mononuclear Tb complex involving a nitronyl nitroxide ligand. New J. Chem. 38, 4716–4721. (doi:10.1039/c4nj00627e)"
+2014_46,[Tb(OETAP)2],LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,982424.cif,Proper,Square antiprism,0.611,-6.5,1.1646125,2014,2014,10.1002/chem.201402869,"Giménez-Agulló, N., de Pipaón, C. S., Adriaenssens, L., Filibian, M., Martínez-Belmonte, M., Escudero-Adán, E. C., Carretta, P., Ballester, P. & Galán-Mascarós, J. R. 2014 Single-Molecule-Magnet Behavior in the Family of [Ln(OETAP)2] Double-Decker Complexes (Ln=Lanthanide, OETAP=Octa(ethyl)tetraazaporphyrin). Chemistry - A European Journal 20, 12817–12825. (doi:10.1002/chem.201402869)"
+2014_46,[Dy(OETAP)2],LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,,Isostructural,,,,,2014,2014,10.1002/chem.201402869,"Giménez-Agulló, N., de Pipaón, C. S., Adriaenssens, L., Filibian, M., Martínez-Belmonte, M., Escudero-Adán, E. C., Carretta, P., Ballester, P. & Galán-Mascarós, J. R. 2014 Single-Molecule-Magnet Behavior in the Family of [Ln(OETAP)2] Double-Decker Complexes (Ln=Lanthanide, OETAP=Octa(ethyl)tetraazaporphyrin). Chemistry - A European Journal 20, 12817–12825. (doi:10.1002/chem.201402869)"
+2014_46,[Gd(OETAP)2],LnPc2,,Gd3+,Isotropic,Kramers,100.0,8.0,2.0,,Isostructural,,,,,2014,2014,10.1002/chem.201402869,"Giménez-Agulló, N., de Pipaón, C. S., Adriaenssens, L., Filibian, M., Martínez-Belmonte, M., Escudero-Adán, E. C., Carretta, P., Ballester, P. & Galán-Mascarós, J. R. 2014 Single-Molecule-Magnet Behavior in the Family of [Ln(OETAP)2] Double-Decker Complexes (Ln=Lanthanide, OETAP=Octa(ethyl)tetraazaporphyrin). Chemistry - A European Journal 20, 12817–12825. (doi:10.1002/chem.201402869)"
+2014_48,[Dy4K4(L)4(μ-H2O)4(NO3)2(μ-Ox)],Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,4511795.cif,Proper,Triangular dodecahedron,1.322,0.8999999999999999,0.9775405,2014,2014,10.1021/cg500677t,"Bag, P., Chakraborty, A., Rouzières, M., Clérac, R., Butcher, R. J. & Chandrasekhar, V. 2014 Oxalato-Bridged Neutral Octanuclear Heterometallic Complexes [Ln4K4(L)4(μ-H2O)4(NO3)2(μ-Ox)] (Ln = Dy(III), Gd(III), Tb(III), Ho(III); LH3 = N[CH2CH2N═CH-C6H3-2-OH-3-OMe]3; Ox = (C2O4)2–): Synthesis, Structure, Magnetic and Luminescent Properties. Crystal Growth & Design 14, 4583–4592. (doi:10.1021/cg500677t)"
+2014_48,[Gd4K4(L)4(μ-H2O)4(NO3)2(μ-Ox)],Schiff Base,,Gd3+,Isotropic,Kramers,100.0,8.0,3.0,,Proper,,,,,2014,2014,10.1021/cg500677t,"Bag, P., Chakraborty, A., Rouzières, M., Clérac, R., Butcher, R. J. & Chandrasekhar, V. 2014 Oxalato-Bridged Neutral Octanuclear Heterometallic Complexes [Ln4K4(L)4(μ-H2O)4(NO3)2(μ-Ox)] (Ln = Dy(III), Gd(III), Tb(III), Ho(III); LH3 = N[CH2CH2N═CH-C6H3-2-OH-3-OMe]3; Ox = (C2O4)2–): Synthesis, Structure, Magnetic and Luminescent Properties. Crystal Growth & Design 14, 4583–4592. (doi:10.1021/cg500677t)"
+2014_48,[Tb4K4(L)4(μ-H2O)4(NO3)2(μ-Ox)],Schiff Base,,Tb3+,Oblate,Non-Kramers,100.0,8.0,3.0,4511797.cif,Proper,Triangular dodecahedron,1.216,1.2,0.970072,2014,2014,10.1021/cg500677t,"Bag, P., Chakraborty, A., Rouzières, M., Clérac, R., Butcher, R. J. & Chandrasekhar, V. 2014 Oxalato-Bridged Neutral Octanuclear Heterometallic Complexes [Ln4K4(L)4(μ-H2O)4(NO3)2(μ-Ox)] (Ln = Dy(III), Gd(III), Tb(III), Ho(III); LH3 = N[CH2CH2N═CH-C6H3-2-OH-3-OMe]3; Ox = (C2O4)2–): Synthesis, Structure, Magnetic and Luminescent Properties. Crystal Growth & Design 14, 4583–4592. (doi:10.1021/cg500677t)"
+2014_48,[Ho4K4(L)4(μ-H2O)4(NO3)2(μ-Ox)],Schiff Base,,Ho3+,Oblate,Non-Kramers,100.0,8.0,3.0,4511798.cif,Proper,Triangular dodecahedron,1.286,0.8,0.980032,2014,2014,10.1021/cg500677t,"Bag, P., Chakraborty, A., Rouzières, M., Clérac, R., Butcher, R. J. & Chandrasekhar, V. 2014 Oxalato-Bridged Neutral Octanuclear Heterometallic Complexes [Ln4K4(L)4(μ-H2O)4(NO3)2(μ-Ox)] (Ln = Dy(III), Gd(III), Tb(III), Ho(III); LH3 = N[CH2CH2N═CH-C6H3-2-OH-3-OMe]3; Ox = (C2O4)2–): Synthesis, Structure, Magnetic and Luminescent Properties. Crystal Growth & Design 14, 4583–4592. (doi:10.1021/cg500677t)"
+2014_49,Na10[Ho2(C2O4)(H2O)4(OH)W4O16]2·30H2O,POM,,Ho3+,Oblate,Non-Kramers,100.0,9.0,6.0,4512154.cif,Proper,Others,1.574,,,2014,2014,10.1021/cg500675g,"Zhao, J., Li, H., Li, Y., Li, C., Wang, Z. & Chen, L. 2014 Rectangle versus Square Oxalate-Connective Tetralanthanide Cluster Anchored in Lacunary Lindqvist Isopolytungstates: Syntheses, Structures, and Properties. Crystal Growth & Design 14, 5495–5505. (doi:10.1021/cg500675g)"
+2014_49,Na10[Er2(C2O4)(H2O)4(OH)W4O16]2·30H2O,POM,,Er3+,Prolate,Kramers,100.0,9.0,6.0,4512155.cif,Proper,Others,1.527,,,2014,2014,10.1021/cg500675g,"Zhao, J., Li, H., Li, Y., Li, C., Wang, Z. & Chen, L. 2014 Rectangle versus Square Oxalate-Connective Tetralanthanide Cluster Anchored in Lacunary Lindqvist Isopolytungstates: Syntheses, Structures, and Properties. Crystal Growth & Design 14, 5495–5505. (doi:10.1021/cg500675g)"
+2014_49,Na10[Tb2(C2O4)(H2O)4(OH)W4O16]2·30H2O,POM,,Tb3+,Oblate,Non-Kramers,100.0,9.0,6.0,4512156.cif,Proper,Others,1.598,,,2014,2014,10.1021/cg500675g,"Zhao, J., Li, H., Li, Y., Li, C., Wang, Z. & Chen, L. 2014 Rectangle versus Square Oxalate-Connective Tetralanthanide Cluster Anchored in Lacunary Lindqvist Isopolytungstates: Syntheses, Structures, and Properties. Crystal Growth & Design 14, 5495–5505. (doi:10.1021/cg500675g)"
+2014_49,K4Na16[Ho(C2O4)W5O18]4·60H2O,POM,,Ho3+,Oblate,Non-Kramers,100.0,9.0,3.0,4512158.cif,Proper,Others,0.402,,,2014,2014,10.1021/cg500675g,"Zhao, J., Li, H., Li, Y., Li, C., Wang, Z. & Chen, L. 2014 Rectangle versus Square Oxalate-Connective Tetralanthanide Cluster Anchored in Lacunary Lindqvist Isopolytungstates: Syntheses, Structures, and Properties. Crystal Growth & Design 14, 5495–5505. (doi:10.1021/cg500675g)"
+2014_49,K4Na16[ER(C2O4)W5O18]4·60H2O,POM,,Er3+,Prolate,Kramers,100.0,9.0,3.0,4512159.cif,Proper,Others,0.358,,,2014,2014,10.1021/cg500675g,"Zhao, J., Li, H., Li, Y., Li, C., Wang, Z. & Chen, L. 2014 Rectangle versus Square Oxalate-Connective Tetralanthanide Cluster Anchored in Lacunary Lindqvist Isopolytungstates: Syntheses, Structures, and Properties. Crystal Growth & Design 14, 5495–5505. (doi:10.1021/cg500675g)"
+2014_49,K4Na16[Tb(C2O4)W5O18]4·60H2O,POM,,Tb3+,Oblate,Non-Kramers,100.0,9.0,3.0,4512160.cif,Proper,Others,0.424,,,2014,2014,10.1021/cg500675g,"Zhao, J., Li, H., Li, Y., Li, C., Wang, Z. & Chen, L. 2014 Rectangle versus Square Oxalate-Connective Tetralanthanide Cluster Anchored in Lacunary Lindqvist Isopolytungstates: Syntheses, Structures, and Properties. Crystal Growth & Design 14, 5495–5505. (doi:10.1021/cg500675g)"
+2014_50,"Trans-[Ph-C≡C-(dppe)2Ru-C≡C-bipy-κ2-N,N’-Dy(TTA)3)]",Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,921663.cif,Proper,Square antiprism,0.468,-1.7,1.0426445,2014,2014,10.1021/ic403081y,"Norel, L., Feng, M., Bernot, K., Roisnel, T., Guizouarn, T., Costuas, K. & Rigaut, S. 2014 Redox Modulation of Magnetic Slow Relaxation in a 4f-Based Single-Molecule Magnet with a 4d Carbon-Rich Ligand. Inorganic Chemistry 53, 2361–2363. (doi:10.1021/ic403081y)"
+2014_50,"Trans-[Ph-C≡C-(dppe)2Ru-C≡C-bipy-κ2-N,N’-Dy(TTA)3)]BF4",Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,,,,,,2014,2014,10.1021/ic403081y,"Norel, L., Feng, M., Bernot, K., Roisnel, T., Guizouarn, T., Costuas, K. & Rigaut, S. 2014 Redox Modulation of Magnetic Slow Relaxation in a 4f-Based Single-Molecule Magnet with a 4d Carbon-Rich Ligand. Inorganic Chemistry 53, 2361–2363. (doi:10.1021/ic403081y)"
+2014_51,[Gd(C4O4)(C2O4)0.5(H2O)2],Other Families,100000.0,Gd3+,Isotropic,Kramers,100.0,8.0,4.0,,Proper,,,,,2014,2014,10.1021/ic4030316,"Biswas, S., Jena, H. S., Adhikary, A. & Konar, S. 2014 Two Isostructural 3D Lanthanide Coordination Networks (Ln = Gd3+, Dy3+) with Squashed Cuboid-Type Nanoscopic Cages Showing Significant Cryogenic Magnetic Refrigeration and Slow Magnetic Relaxation. Inorganic Chemistry 53, 3926–3928. (doi:10.1021/ic4030316)"
+2014_51,[Dy(C4O4)(C2O4)0.5(H2O)2],Other Families,100000.0,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4338025.cif,Proper,Biaugmented trigonal prism,0.622,-0.4,1.010008,2014,2014,10.1021/ic4030316,"Biswas, S., Jena, H. S., Adhikary, A. & Konar, S. 2014 Two Isostructural 3D Lanthanide Coordination Networks (Ln = Gd3+, Dy3+) with Squashed Cuboid-Type Nanoscopic Cages Showing Significant Cryogenic Magnetic Refrigeration and Slow Magnetic Relaxation. Inorganic Chemistry 53, 3926–3928. (doi:10.1021/ic4030316)"
+2014_53,[Cp2L1SmPhCN],Other Families,100.0,Sm3+,Prolate,Kramers,100.0,5.0,4.0,4082734.cif,Proper,Others,11.204,,,2014,2014,10.1021/om400856d,"Liu, J.-F., Pan, F.-X., Yao, S., Min, X., Cui, D. & Sun, Z.-M. 2014 Syntheses, Structure, and Properties of Mixed Cp–Amidinate Rare-Earth-Metal(III) Complexes. Organometallics 33, 1374–1381. (doi:10.1021/om400856d)"
+2014_53,[Cp2L1GdPhCN],Other Families,100.0,Gd3+,Isotropic,Kramers,100.0,5.0,4.0,,Proper,,,,,2014,2014,10.1021/om400856d,"Liu, J.-F., Pan, F.-X., Yao, S., Min, X., Cui, D. & Sun, Z.-M. 2014 Syntheses, Structure, and Properties of Mixed Cp–Amidinate Rare-Earth-Metal(III) Complexes. Organometallics 33, 1374–1381. (doi:10.1021/om400856d)"
+2014_53,[Cp2L1TbPhCN],Other Families,100.0,Tb3+,Oblate,Non-Kramers,100.0,5.0,4.0,4082738.cif,Proper,Others,7.968,,,2014,2014,10.1021/om400856d,"Liu, J.-F., Pan, F.-X., Yao, S., Min, X., Cui, D. & Sun, Z.-M. 2014 Syntheses, Structure, and Properties of Mixed Cp–Amidinate Rare-Earth-Metal(III) Complexes. Organometallics 33, 1374–1381. (doi:10.1021/om400856d)"
+2014_53,[Cp2L1DyPhCN],Other Families,100.0,Dy3+,Oblate,Kramers,100.0,5.0,4.0,4082739.cif,Proper,Others,7.422,,,2014,2014,10.1021/om400856d,"Liu, J.-F., Pan, F.-X., Yao, S., Min, X., Cui, D. & Sun, Z.-M. 2014 Syntheses, Structure, and Properties of Mixed Cp–Amidinate Rare-Earth-Metal(III) Complexes. Organometallics 33, 1374–1381. (doi:10.1021/om400856d)"
+2014_53,[Cp2L1Er],Other Families,100.0,Er3+,Prolate,Kramers,100.0,4.0,3.0,4082740.cif,Proper,Others,12.241,,,2014,2014,10.1021/om400856d,"Liu, J.-F., Pan, F.-X., Yao, S., Min, X., Cui, D. & Sun, Z.-M. 2014 Syntheses, Structure, and Properties of Mixed Cp–Amidinate Rare-Earth-Metal(III) Complexes. Organometallics 33, 1374–1381. (doi:10.1021/om400856d)"
+2014_53,[Cp2L1Yb],Other Families,100.0,Yb3+,Prolate,Kramers,100.0,4.0,3.0,4082741.cif,Proper,Others,7.085,,,2014,2014,10.1021/om400856d,"Liu, J.-F., Pan, F.-X., Yao, S., Min, X., Cui, D. & Sun, Z.-M. 2014 Syntheses, Structure, and Properties of Mixed Cp–Amidinate Rare-Earth-Metal(III) Complexes. Organometallics 33, 1374–1381. (doi:10.1021/om400856d)"
+2014_53,[Cp2L2Gd],Other Families,100.0,Gd3+,Isotropic,Kramers,100.0,4.0,3.0,,Proper,,,,,2014,2014,10.1021/om400856d,"Liu, J.-F., Pan, F.-X., Yao, S., Min, X., Cui, D. & Sun, Z.-M. 2014 Syntheses, Structure, and Properties of Mixed Cp–Amidinate Rare-Earth-Metal(III) Complexes. Organometallics 33, 1374–1381. (doi:10.1021/om400856d)"
+2014_53,[Cp2L2Tb],Other Families,100.0,Tb3+,Oblate,Non-Kramers,100.0,4.0,3.0,4082746.cif,Proper,Others,13.241,,,2014,2014,10.1021/om400856d,"Liu, J.-F., Pan, F.-X., Yao, S., Min, X., Cui, D. & Sun, Z.-M. 2014 Syntheses, Structure, and Properties of Mixed Cp–Amidinate Rare-Earth-Metal(III) Complexes. Organometallics 33, 1374–1381. (doi:10.1021/om400856d)"
+2014_53,[Cp2L2Dy],Other Families,100.0,Dy3+,Oblate,Kramers,100.0,4.0,3.0,4082747.cif,Proper,Others,18.672,,,2014,2014,10.1021/om400856d,"Liu, J.-F., Pan, F.-X., Yao, S., Min, X., Cui, D. & Sun, Z.-M. 2014 Syntheses, Structure, and Properties of Mixed Cp–Amidinate Rare-Earth-Metal(III) Complexes. Organometallics 33, 1374–1381. (doi:10.1021/om400856d)"
+2014_53,[Cp2L2Er],Other Families,100.0,Er3+,Prolate,Kramers,100.0,4.0,3.0,4082748.cif,Proper,Others,4.674,,,2014,2014,10.1021/om400856d,"Liu, J.-F., Pan, F.-X., Yao, S., Min, X., Cui, D. & Sun, Z.-M. 2014 Syntheses, Structure, and Properties of Mixed Cp–Amidinate Rare-Earth-Metal(III) Complexes. Organometallics 33, 1374–1381. (doi:10.1021/om400856d)"
+2014_54,[Gd(hfac)3L2],Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,Proper,,,,,2014,2014,10.1007/s11172-014-0621-8,"Tretyakov, E. V., Fokin, S. V., Zueva, E. M., Tkacheva, A. O., Romanenko, G. V., Bogomyakov, A. S., Larionov, S. V., Popov, S. A. & Ovcharenko, V. I. 2014 Complexes of lanthanides with spin-labeled pyrazolylquinoline. Russian Chemical Bulletin 63, 1459–1464. (doi:10.1007/s11172-014-0621-8)"
+2014_54,[Tb(hfac)3L2],Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,,Isostructural,,,,,2014,2014,10.1007/s11172-014-0621-8,"Tretyakov, E. V., Fokin, S. V., Zueva, E. M., Tkacheva, A. O., Romanenko, G. V., Bogomyakov, A. S., Larionov, S. V., Popov, S. A. & Ovcharenko, V. I. 2014 Complexes of lanthanides with spin-labeled pyrazolylquinoline. Russian Chemical Bulletin 63, 1459–1464. (doi:10.1007/s11172-014-0621-8)"
+2014_55,[Er(hfac)3[NITPhm-Cl]2][0.5CH3(CH2)5CH3],Radical,,Er3+,Prolate,Kramers,100.0,8.0,5.0,934212.cif,Proper,Triangular dodecahedron,0.477,0.5,0.9875125,2014,2014,10.1002/zaac.201300655,"Qiao, X.-M., Zhang, C.-X., Kong, Y.-K., Wang, Q.-L. & Zhang, Y.-Y. 2014 Two Mononuclear Tri-Spin Compounds based on the Lanthanide-Nitronyl Nitroxide Radicals: Synthesis, Crystal Structure, and Magnetic Properties. Zeitschrift für anorganische und allgemeine Chemie 640, 1684–1687. (doi:10.1002/zaac.201300655)"
+2014_55,[Nd(hfac)3[NITPhm-Cl]2][0.5CH3(CH2)5CH3],Radical,,Nd3+,Oblate,Kramers,100.0,8.0,5.0,934213.cif,Proper,Triangular dodecahedron,0.649,-0.7000000000000001,1.0175245,2014,2014,10.1002/zaac.201300655,"Qiao, X.-M., Zhang, C.-X., Kong, Y.-K., Wang, Q.-L. & Zhang, Y.-Y. 2014 Two Mononuclear Tri-Spin Compounds based on the Lanthanide-Nitronyl Nitroxide Radicals: Synthesis, Crystal Structure, and Magnetic Properties. Zeitschrift für anorganische und allgemeine Chemie 640, 1684–1687. (doi:10.1002/zaac.201300655)"
+2015_2,"[R,R-ZnLDy(m-OAc)(NO3)2] (R,R-1)",TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,1014830.cif,Proper,,,,,2015,2015,10.1002/anie.201410523,"Long, J. et al. 2014 A High-Temperature Molecular Ferroelectric Zn/Dy Complex Exhibiting Single-Ion-Magnet Behavior and Lanthanide Luminescence. Angewandte Chemie International Edition 54, 2236–2240. (doi:10.1002/anie.201410523)"
+2015_2,"[S,S-ZnLDy(m-OAc)(NO3)2] (S,S-2)",TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,1014831.cif,Proper,,,,,2015,2015,10.1002/anie.201410523,"Long, J. et al. 2014 A High-Temperature Molecular Ferroelectric Zn/Dy Complex Exhibiting Single-Ion-Magnet Behavior and Lanthanide Luminescence. Angewandte Chemie International Edition 54, 2236–2240. (doi:10.1002/anie.201410523)"
+2015_3,[Li(THF)4[Er{N(SiMe3)2}3Cl]·2THF,Other Families,0.0,Er3+,Prolate,Kramers,100.0,4.0,4.0,1051281.cif,Proper,Others,0.381,,,2015,2015,10.1002/ange.201411190,"Brown, A. J., Pinkowicz, D., Saber, M. R. & Dunbar, K. R. 2015 A Trigonal-Pyramidal Erbium(III) Single-Molecule Magnet. Angewandte Chemie 127, 5962–5966. (doi:10.1002/ange.201411190)"
+2015_3,[Li(THF)4[Er{N(SiMe3)2}3Cl]·2THF,Other Families,0.0,Er3+,Prolate,Kramers,10.0,4.0,4.0,,Isostructural,,,,,2015,2015,10.1002/ange.201411190,"Brown, A. J., Pinkowicz, D., Saber, M. R. & Dunbar, K. R. 2015 A Trigonal-Pyramidal Erbium(III) Single-Molecule Magnet. Angewandte Chemie 127, 5962–5966. (doi:10.1002/ange.201411190)"
+2015_4,α-Dy(2-qpH)(SO4)(H2O)2,P=O,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1035243.cif,Proper,Triangular dodecahedron,1.959,2.3,0.9427645,2015,2015,10.1039/c4cc09341k,"Zeng, D., Ren, M., Bao, S.-S., Feng, J.-S., Li, L. & Zheng, L.-M. 2015 pH-controlled polymorphism in a layered dysprosium phosphonate and its impact on the magnetization relaxation. Chemical Communications 51, 2649–2652. (doi:10.1039/c4cc09341k)"
+2015_4,α-Dy(2-qpH)(SO4)(H2O)2,P=O,,Dy3+,Oblate,Kramers,10.0,8.0,4.0,,Isostructural,,,,,2015,2015,10.1039/c4cc09341k,"Zeng, D., Ren, M., Bao, S.-S., Feng, J.-S., Li, L. & Zheng, L.-M. 2015 pH-controlled polymorphism in a layered dysprosium phosphonate and its impact on the magnetization relaxation. Chemical Communications 51, 2649–2652. (doi:10.1039/c4cc09341k)"
+2015_4,b-Dy(2-qpH)(SO4)(H2O)2,P=O,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1035242.cif,Proper,Triangular dodecahedron,1.081,1.5,0.9626125,2015,2015,10.1039/c4cc09341k,"Zeng, D., Ren, M., Bao, S.-S., Feng, J.-S., Li, L. & Zheng, L.-M. 2015 pH-controlled polymorphism in a layered dysprosium phosphonate and its impact on the magnetization relaxation. Chemical Communications 51, 2649–2652. (doi:10.1039/c4cc09341k)"
+2015_4,b-Dy(2-qpH)(SO4)(H2O)2,P=O,,Dy3+,Oblate,Kramers,12.0,8.0,4.0,,Isostructural,,,,,2015,2015,10.1039/c4cc09341k,"Zeng, D., Ren, M., Bao, S.-S., Feng, J.-S., Li, L. & Zheng, L.-M. 2015 pH-controlled polymorphism in a layered dysprosium phosphonate and its impact on the magnetization relaxation. Chemical Communications 51, 2649–2652. (doi:10.1039/c4cc09341k)"
+2015_5,[Er(HL)2(NO3)3],Schiff Base,,Er3+,Prolate,Kramers,100.0,,5.0,7116868.cif,Proper,Others,2.868,,,2015,2015,10.1039/c4cc09523e,"Das, C., Upadhyay, A., Vaidya, S., Singh, S. K., Rajaraman, G. & Shanmugam, M. 2015 Origin of SMM behaviour in an asymmetric Er(iii) Schiff base complex: a combined experimental and theoretical study. Chemical Communications 51, 6137–6140. (doi:10.1039/c4cc09523e)"
+2015_5,[Er(HL)2(NO3)3],Schiff Base,,Er3+,Prolate,Kramers,50.0,,5.0,,Isostructural,,,,,2015,2015,10.1039/c4cc09523e,"Das, C., Upadhyay, A., Vaidya, S., Singh, S. K., Rajaraman, G. & Shanmugam, M. 2015 Origin of SMM behaviour in an asymmetric Er(iii) Schiff base complex: a combined experimental and theoretical study. Chemical Communications 51, 6137–6140. (doi:10.1039/c4cc09523e)"
+2015_5,[Er(HL)2(NO3)3],Schiff Base,,Er3+,Prolate,Kramers,5.0,,5.0,,Isostructural,,,,,2015,2015,10.1039/c4cc09523e,"Das, C., Upadhyay, A., Vaidya, S., Singh, S. K., Rajaraman, G. & Shanmugam, M. 2015 Origin of SMM behaviour in an asymmetric Er(iii) Schiff base complex: a combined experimental and theoretical study. Chemical Communications 51, 6137–6140. (doi:10.1039/c4cc09523e)"
+2015_6,[YbZn4(quinha)4(py)4(DMF)4](CF3SO3)3·5DMF·7H2O,TM near Ln,,Yb3+,Prolate,Kramers,100.0,8.0,8.0,7117311.cif,Proper,Square antiprism,0.124,-2.2,1.055242,2015,2015,10.1039/c5cc03389f,"Li, Q.-W., Liu, J.-L., Jia, J.-H., Chen, Y.-C., Liu, J., Wang, L.-F. & Tong, M.-L. 2015 ‘Half-sandwich’ YbIII single-ion magnets with metallacrowns. Chemical Communications 51, 10291–10294. (doi:10.1039/c5cc03389f)"
+2015_6,[YbZn4(quinha)4(iqn)4(DMF)4](CF3SO3)3·6DMF·4H2O,TM near Ln,,Yb3+,Prolate,Kramers,100.0,8.0,8.0,7117312.cif,Proper,Square antiprism,0.132,-1.4,1.035098,2015,2015,10.1039/c5cc03389f,"Li, Q.-W., Liu, J.-L., Jia, J.-H., Chen, Y.-C., Liu, J., Wang, L.-F. & Tong, M.-L. 2015 ‘Half-sandwich’ YbIII single-ion magnets with metallacrowns. Chemical Communications 51, 10291–10294. (doi:10.1039/c5cc03389f)"
+2015_8,[(LZn(H2O))2Dy(H2O)](CF3SO3)3,TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,1059377.cif,Proper,Muffin,2.582,-3.5,1.0881125,2015,2015,10.1002/chem.201501500,"Costes, J. P., Titos-Padilla, S., Oyarzabal, I., Gupta, T., Duhayon, C., Rajaraman, G. & Colacio, E. 2015 Analysis of the Role of Peripheral Ligands Coordinated to ZnIIin Enhancing the Energy Barrier in Luminescent Linear Trinuclear Zn-Dy-Zn Single-Molecule Magnets. Chemistry - A European Journal 21, 15785–15796. (doi:10.1002/chem.201501500)"
+2015_8,[(LZnBr)2Dy(H2O)](ClO4),TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,1059378.cif,Proper,Muffin,7.984,2.7,0.9328645,2015,2015,10.1002/chem.201501500,"Costes, J. P., Titos-Padilla, S., Oyarzabal, I., Gupta, T., Duhayon, C., Rajaraman, G. & Colacio, E. 2015 Analysis of the Role of Peripheral Ligands Coordinated to ZnIIin Enhancing the Energy Barrier in Luminescent Linear Trinuclear Zn-Dy-Zn Single-Molecule Magnets. Chemistry - A European Journal 21, 15785–15796. (doi:10.1002/chem.201501500)"
+2015_8,[(LZnCl)2Dy(H2O)](ClO4)(MeOH),TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,1059379.cif,Proper,Muffin,7.196,2.3,0.9427645,2015,2015,10.1002/chem.201501500,"Costes, J. P., Titos-Padilla, S., Oyarzabal, I., Gupta, T., Duhayon, C., Rajaraman, G. & Colacio, E. 2015 Analysis of the Role of Peripheral Ligands Coordinated to ZnIIin Enhancing the Energy Barrier in Luminescent Linear Trinuclear Zn-Dy-Zn Single-Molecule Magnets. Chemistry - A European Journal 21, 15785–15796. (doi:10.1002/chem.201501500)"
+2015_9,(NMe4)[Dy(dsp)2],Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,1015647.cif,Proper,Square antiprism,1.315,-5.5,1.1390125,2015,2015,10.1016/j.poly.2015.07.048,"Chien, Y.-L., Chang, M.-W., Tsai, Y.-C., Lee, G.-H., Sheu, W.-S. & Yang, E.-C. 2015 New salen-type dysprosium(III) double-decker and triple-decker complexes. Polyhedron 102, 8–15. (doi:10.1016/j.poly.2015.07.048)"
+2015_10,"DyIII(Pc)(XTBPP) [X = O (1), S (2)]",LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,1529214.cif,Proper,Square antiprism,0.525,-5.9,1.1492405,2015,2015,10.1039/c5sc02314a,"Cao, W., Gao, C., Zhang, Y.-Q., Qi, D., Liu, T., Wang, K., Duan, C., Gao, S. & Jiang, J. 2015 Rational enhancement of the energy barrier of bis(tetrapyrrole) dysprosium SMMs via replacing atom of porphyrin core. Chemical Science 6, 5947–5954. (doi:10.1039/c5sc02314a)"
+2015_10,"DyIII(Pc)(XTBPP) [X = O (1), S (2)]",LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,1529215.cif,Proper,Square antiprism,1.822,-10.0,1.255,2015,2015,10.1039/c5sc02314a,"Cao, W., Gao, C., Zhang, Y.-Q., Qi, D., Liu, T., Wang, K., Duan, C., Gao, S. & Jiang, J. 2015 Rational enhancement of the energy barrier of bis(tetrapyrrole) dysprosium SMMs via replacing atom of porphyrin core. Chemical Science 6, 5947–5954. (doi:10.1039/c5sc02314a)"
+2015_11,[Ln(nma)(NO3)2(DMSO)]·CH3OH,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,4.0,7220616.cif,Proper,Spherical capped square antiprism,1.787,-3.7,1.0931845,2015,2015,10.1039/c5ce00925a,"Chen, P., Zhang, M., Sun, W., Li, H., Zhao, L. & Yan, P. 2015 Anion-dependent assembly of Dy complexes: structures and magnetic behaviors. CrystEngComm 17, 5066–5073. (doi:10.1039/c5ce00925a)"
+2015_11,[Dy(nma)2]·ClO4·0.5CH3OH,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,7220618.cif,Proper,Triangular dodecahedron,2.702,-1.9,1.0476805,2015,2015,10.1039/c5ce00925a,"Chen, P., Zhang, M., Sun, W., Li, H., Zhao, L. & Yan, P. 2015 Anion-dependent assembly of Dy complexes: structures and magnetic behaviors. CrystEngComm 17, 5066–5073. (doi:10.1039/c5ce00925a)"
+2015_12,[C6H16N]3.5[Dy2(MBDA)4]·1.5Cl·2CH3CN·C3H6O·C4H10O,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7221777.cif,Proper,Triangular dodecahedron,1.19,2.8,0.930392,2015,2015,10.1039/c5ce01067e,"Chen, P., Li, H., Sun, W., Tang, J., Zhang, L. & Yan, P. 2015 Crystallization of triple- and quadruple-stranded dinuclear bis-β-diketonate-Dy(iii) helicates: single molecule magnetic behavior. CrystEngComm 17, 7227–7232. (doi:10.1039/c5ce01067e)"
+2015_12,[Dy2(MBDA)3(phen)2]·0.5CH3CN·C3H6O·C4H10O,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,7221778.cif,Proper,Square antiprism,1.081,-3.5,1.0881125,2015,2015,10.1039/c5ce01067e,"Chen, P., Li, H., Sun, W., Tang, J., Zhang, L. & Yan, P. 2015 Crystallization of triple- and quadruple-stranded dinuclear bis-β-diketonate-Dy(iii) helicates: single molecule magnetic behavior. CrystEngComm 17, 7227–7232. (doi:10.1039/c5ce01067e)"
+2015_13,[DyH4LRRRRRR(SCN)2](SCN)2·xCH3OH·yH2O,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,7.0,4.0,7033030.cif,Proper,Capped trigonal prism,0.817,-0.8,1.020032,2015,2015,10.1039/c4dt02889a,"Lin, S.-Y., Wang, C., Zhao, L., Wu, J. & Tang, J. 2015 Chiral mononuclear lanthanide complexes and the field-induced single-ion magnet behaviour of a Dy analogue. Dalton Transactions 44, 223–229. (doi:10.1039/c4dt02889a)"
+2015_13,[HoH4LRRRRRR(SCN)2](SCN)2·xCH3OH·yH2O,Other Families,0.0,Ho3+,Oblate,Non-Kramers,100.0,7.0,4.0,7033032.cif,Proper,Capped trigonal prism,0.832,-1.1,1.0275605,2015,2015,10.1039/c4dt02889a,"Lin, S.-Y., Wang, C., Zhao, L., Wu, J. & Tang, J. 2015 Chiral mononuclear lanthanide complexes and the field-induced single-ion magnet behaviour of a Dy analogue. Dalton Transactions 44, 223–229. (doi:10.1039/c4dt02889a)"
+2015_13,[ErH4LRRRRRR(SCN)2](SCN)2·xCH3OH·yH2O,Other Families,0.0,Er3+,Prolate,Kramers,100.0,7.0,4.0,7033034.cif,Proper,Capped trigonal prism,0.885,-1.4,1.035098,2015,2015,10.1039/c4dt02889a,"Lin, S.-Y., Wang, C., Zhao, L., Wu, J. & Tang, J. 2015 Chiral mononuclear lanthanide complexes and the field-induced single-ion magnet behaviour of a Dy analogue. Dalton Transactions 44, 223–229. (doi:10.1039/c4dt02889a)"
+2015_14,[TbIII(L)(NO3)(DMF)2]∞,Other Families,0.0,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,7033539.cif,Proper,Others,2.15,,,2015,2015,10.1039/c4dt03458a,"Feng, H.-K., Huang, P.-J. & Tsai, H.-L. 2015 One-dimensional lanthanide coordination polymers: synthesis, structures, and single-ion magnetic behaviour. Dalton Transactions 44, 3764–3772. (doi:10.1039/c4dt03458a)"
+2015_14,[DyIII(L)(NO3)(DMF)2]∞,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,5.0,7033536.cif,Proper,Others,2.068,,,2015,2015,10.1039/c4dt03458a,"Feng, H.-K., Huang, P.-J. & Tsai, H.-L. 2015 One-dimensional lanthanide coordination polymers: synthesis, structures, and single-ion magnetic behaviour. Dalton Transactions 44, 3764–3772. (doi:10.1039/c4dt03458a)"
+2015_14,[HoIII(L)(NO3)(DMF)2]∞,Other Families,0.0,Ho3+,Oblate,Non-Kramers,100.0,8.0,5.0,7033538.cif,Proper,Others,2.069,,,2015,2015,10.1039/c4dt03458a,"Feng, H.-K., Huang, P.-J. & Tsai, H.-L. 2015 One-dimensional lanthanide coordination polymers: synthesis, structures, and single-ion magnetic behaviour. Dalton Transactions 44, 3764–3772. (doi:10.1039/c4dt03458a)"
+2015_14,[ErIII(L)(NO3)(DMF)2]∞,Other Families,0.0,Er3+,Prolate,Kramers,100.0,8.0,5.0,7033537.cif,Proper,Others,2.058,,,2015,2015,10.1039/c4dt03458a,"Feng, H.-K., Huang, P.-J. & Tsai, H.-L. 2015 One-dimensional lanthanide coordination polymers: synthesis, structures, and single-ion magnetic behaviour. Dalton Transactions 44, 3764–3772. (doi:10.1039/c4dt03458a)"
+2015_15,[Dy(H2L)(NO3)3]2·CH2Cl2·CH3OH·H2O,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,,5.0,7223143.cif,Proper,Others,3.199,,,2015,2015,10.1039/c5ra18244a,"Zou, X., Yan, P., Dong, Y., Luan, F. & Li, G. 2015 Magnetic dynamics of two salen type Dy2 complexes modulated by coordination geometry. RSC Advances 5, 96573–96579. (doi:10.1039/c5ra18244a)"
+2015_15,[Dy(H2L1)2(NO3)3]2·2CH2Cl2·2CH3OH,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,6.0,7223144.cif,Proper,Spherical capped square antiprism,2.141,-2.5,1.0628125,2015,2015,10.1039/c5ra18244a,"Zou, X., Yan, P., Dong, Y., Luan, F. & Li, G. 2015 Magnetic dynamics of two salen type Dy2 complexes modulated by coordination geometry. RSC Advances 5, 96573–96579. (doi:10.1039/c5ra18244a)"
+2015_16,[Dy(H4daps)(H2O)3(NO3)]·(NO3)2·(H2O),Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,5.0,7033876.cif,Proper,Muffin,2.347,-1.0,1.02505,2015,2015,10.1039/c4dt03620d,"Mondal, A. K., Goswami, S. & Konar, S. 2015 Influence of the coordination environment on slow magnetic relaxation and photoluminescence behavior in two mononuclear dysprosium(iii) based single molecule magnets. Dalton Transactions 44, 5086–5094. (doi:10.1039/c4dt03620d)"
+2015_16,[Dy(H4daps)(H2O)3(NO3)]·(NO3)2·(H2O),Other Families,0.0,Dy3+,Oblate,Kramers,10.0,9.0,5.0,,Isostructural,,,,,2015,2015,10.1039/c4dt03620d,"Mondal, A. K., Goswami, S. & Konar, S. 2015 Influence of the coordination environment on slow magnetic relaxation and photoluminescence behavior in two mononuclear dysprosium(iii) based single molecule magnets. Dalton Transactions 44, 5086–5094. (doi:10.1039/c4dt03620d)"
+2015_16,[Dy(H3daps)(H2O)2(NO3)]·(NO3)·(MeOH),Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,4.0,7033875.cif,Proper,Muffin,2.315,-2.5,1.0628125,2015,2015,10.1039/c4dt03620d,"Mondal, A. K., Goswami, S. & Konar, S. 2015 Influence of the coordination environment on slow magnetic relaxation and photoluminescence behavior in two mononuclear dysprosium(iii) based single molecule magnets. Dalton Transactions 44, 5086–5094. (doi:10.1039/c4dt03620d)"
+2015_17,[Gd(hfac)3(NITPhCOOMe)2],Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,Proper,,,,,2015,2015,10.1039/c4dt03941f,"Li, L.-L., Liu, S., Zhang, Y., Shi, W. & Cheng, P. 2015 Three new mononuclear tri-spin lanthanide-nitronyl nitroxide radical compounds: syntheses, structures and magnetic properties. Dalton Transactions 44, 6118–6125. (doi:10.1039/c4dt03941f)"
+2015_17,[Tb(hfac)3(NITPhCOOMe)2],Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,7034057.cif,Proper,Triangular dodecahedron,0.296,-0.4,1.010008,2015,2015,10.1039/c4dt03941f,"Li, L.-L., Liu, S., Zhang, Y., Shi, W. & Cheng, P. 2015 Three new mononuclear tri-spin lanthanide-nitronyl nitroxide radical compounds: syntheses, structures and magnetic properties. Dalton Transactions 44, 6118–6125. (doi:10.1039/c4dt03941f)"
+2015_17,[Dy(hfac)3(NITPhCOOMe)2],Radical,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,7034058.cif,Proper,Triangular dodecahedron,0.073,0.8999999999999999,0.9775405,2015,2015,10.1039/c4dt03941f,"Li, L.-L., Liu, S., Zhang, Y., Shi, W. & Cheng, P. 2015 Three new mononuclear tri-spin lanthanide-nitronyl nitroxide radical compounds: syntheses, structures and magnetic properties. Dalton Transactions 44, 6118–6125. (doi:10.1039/c4dt03941f)"
+2015_19,[TbCd2(PIDC)(HPIDC)(H2O)5Cl2]·3H2O,TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,8.0,6.0,7034493.cif,Proper,Square antiprism,0.544,-2.8,1.070392,2015,2015,10.1039/c5dt00721f,"Zhang, X.-J., Liu, K., Bing, Y., Xu, N., Shi, W. & Cheng, P. 2015 An unusual three-dimensional Dy–Cd2 framework exhibiting single-ion magnet behavior. Dalton Transactions 44, 7757–7760. (doi:10.1039/c5dt00721f)"
+2015_19,[DyCd2(PIDC)(HPIDC)(H2O)5Cl2]·3H2O,TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,6.0,7034492.cif,Proper,Square antiprism,0.535,-2.9,1.0729205,2015,2015,10.1039/c5dt00721f,"Zhang, X.-J., Liu, K., Bing, Y., Xu, N., Shi, W. & Cheng, P. 2015 An unusual three-dimensional Dy–Cd2 framework exhibiting single-ion magnet behavior. Dalton Transactions 44, 7757–7760. (doi:10.1039/c5dt00721f)"
+2015_19,[DyCd2(PIDC)(HPIDC)(H2O)5Cl2]·3H2O,TM near Ln,,Dy3+,Oblate,Kramers,3.57,8.0,6.0,,Isostructural,,,,,2015,2015,10.1039/c5dt00721f,"Zhang, X.-J., Liu, K., Bing, Y., Xu, N., Shi, W. & Cheng, P. 2015 An unusual three-dimensional Dy–Cd2 framework exhibiting single-ion magnet behavior. Dalton Transactions 44, 7757–7760. (doi:10.1039/c5dt00721f)"
+2015_20,{[Dy0.05Y0.95(L)3(H2O)]·5H2O}n,Other Families,100000.0,Dy3+,Oblate,Kramers,5.0,8.0,4.0,7035741.cif,Proper,Triangular dodecahedron,0.942,3.7,0.9081845,2015,2015,10.1039/c4dt03980g,"Han, T., Leng, J.-D., Ding, Y.-S., Wang, Y., Zheng, Z. & Zheng, Y.-Z. 2015 Field and dilution effects on the magnetic relaxation behaviours of a 1D dysprosium(iii)-carboxylate chain built from chiral ligands. Dalton Transactions 44, 13480–13484. (doi:10.1039/c4dt03980g)"
+2015_21,[Gd(hfac)3(NIT2-PyOCH3)],Radical,,Gd3+,Isotropic,Kramers,100.0,9.0,4.0,,Proper,,,,,2015,2015,10.1039/c5dt01487e,"Wang, X., Zhu, M., Wang, J. & Li, L. 2015 Unusual Gd–nitronyl nitroxide antiferromagnetic coupling and slow magnetic relaxation in the corresponding Tb analogue. Dalton Transactions 44, 13890–13896. (doi:10.1039/c5dt01487e)"
+2015_21,[Tb(hfac)3(NIT2-PyOCH3)],Radical,,Tb3+,Oblate,Non-Kramers,100.0,9.0,4.0,7035530.cif,Proper,Muffin,1.612,0.3,0.9925045,2015,2015,10.1039/c5dt01487e,"Wang, X., Zhu, M., Wang, J. & Li, L. 2015 Unusual Gd–nitronyl nitroxide antiferromagnetic coupling and slow magnetic relaxation in the corresponding Tb analogue. Dalton Transactions 44, 13890–13896. (doi:10.1039/c5dt01487e)"
+2015_21,[Er(hfac)3(NIT2-PyOCH3)],Radical,,Er3+,Prolate,Kramers,100.0,9.0,4.0,7035531.cif,Proper,Spherical capped square antiprism,1.041,-2.4,1.060288,2015,2015,10.1039/c5dt01487e,"Wang, X., Zhu, M., Wang, J. & Li, L. 2015 Unusual Gd–nitronyl nitroxide antiferromagnetic coupling and slow magnetic relaxation in the corresponding Tb analogue. Dalton Transactions 44, 13890–13896. (doi:10.1039/c5dt01487e)"
+2015_22,[Pr(NO3){Zn(L)(SCN)}2],TM near Ln,,Pr3+,Oblate,Non-Kramers,100.0,,3.0,7036629.cif,Proper,Others,4.207,,,2015,2015,10.1039/c5dt03148f,"Takehara, C., Then, P. L., Kataoka, Y., Nakano, M., Yamamura, T. & Kajiwara, T. 2015 Slow magnetic relaxation of light lanthanide-based linear LnZn2 trinuclear complexes. Dalton Transactions 44, 18276–18283. (doi:10.1039/c5dt03148f)"
+2015_22,[Nd(NO3){Zn(L)(SCN)}2],TM near Ln,,Nd3+,Oblate,Kramers,100.0,,3.0,7036630.cif,Proper,Others,4.07,,,2015,2015,10.1039/c5dt03148f,"Takehara, C., Then, P. L., Kataoka, Y., Nakano, M., Yamamura, T. & Kajiwara, T. 2015 Slow magnetic relaxation of light lanthanide-based linear LnZn2 trinuclear complexes. Dalton Transactions 44, 18276–18283. (doi:10.1039/c5dt03148f)"
+2015_22,[Sm(NO3){Zn(L)(SCN)}2],TM near Ln,,Sm3+,Prolate,Kramers,100.0,,3.0,7036631.cif,Proper,Others,3.981,,,2015,2015,10.1039/c5dt03148f,"Takehara, C., Then, P. L., Kataoka, Y., Nakano, M., Yamamura, T. & Kajiwara, T. 2015 Slow magnetic relaxation of light lanthanide-based linear LnZn2 trinuclear complexes. Dalton Transactions 44, 18276–18283. (doi:10.1039/c5dt03148f)"
+2015_23,[ZnDy(NO3)2(mpko)3(mpkoH)],TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,6.0,1540025.cif,Proper,Spherical capped square antiprism,2.349,-0.7000000000000001,1.0175245,2015,2015,10.1039/c5dt03663a,"Anastasiadis, N. C., Polyzou, C. D., Kostakis, G. E., Bekiari, V., Lan, Y., Perlepes, S. P., Konidaris, K. F. & Powell, A. K. 2015 Dinuclear lanthanide(iii)/zinc(ii) complexes with methyl 2-pyridyl ketone oxime. Dalton Transactions 44, 19791–19795. (doi:10.1039/c5dt03663a)"
+2015_24,{[Dy2(H2L)4Cl4(CH3OH)2]Cl2·CH3OH}n,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,7.0,7.0,1025560.cif,Proper,Capped trigonal prism,1.949,2.8,0.930392,2015,2015,10.1016/j.inoche.2014.11.007,"Yue, Y., Sun, J., Yan, P. & Li, G. 2015 Single molecule magnet of flexible Salen-type dysprosium coordination polymer with 1D ionic chain structure. Inorganic Chemistry Communications 51, 42–45. (doi:10.1016/j.inoche.2014.11.007)"
+2015_26,(Bu4N)5[Dy{Os(NO)(μ-ox)Cl3}4(H2O)],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,2.0,1031242.cif,Proper,Biaugmented trigonal prism,1.211,1.9,0.9526805,2015,2015,10.1002/ejic.201500023,"Gavriluta, A., Claiser, N., Kuhn, P.-S., Novitchi, G., Tommasino, J. B., Iasco, O., Druta, V., Arion, V. B. & Luneau, D. 2015 Osmium-Nitrosyl Oxalato-Bridged Lanthanide-Centered Pentanuclear Complexes - Synthesis, Crystal Structures and Magnetic Properties. European Journal of Inorganic Chemistry 2015, 1616–1624. (doi:10.1002/ejic.201500023)"
+2015_26,(Bu4N)5[Tb{Os(NO)(μ-ox)Cl3}4(H2O)],Other Families,0.0,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,1031248.cif,Proper,Others,11.359,,,2015,2015,10.1002/ejic.201500023,"Gavriluta, A., Claiser, N., Kuhn, P.-S., Novitchi, G., Tommasino, J. B., Iasco, O., Druta, V., Arion, V. B. & Luneau, D. 2015 Osmium-Nitrosyl Oxalato-Bridged Lanthanide-Centered Pentanuclear Complexes - Synthesis, Crystal Structures and Magnetic Properties. European Journal of Inorganic Chemistry 2015, 1616–1624. (doi:10.1002/ejic.201500023)"
+2015_26,(Bu4N)5[Gd{Os(NO)(μ-ox)Cl3}4(H2O)],Other Families,0.0,Gd3+,Isotropic,Kramers,100.0,9.0,5.0,,Proper,,,,,2015,2015,10.1002/ejic.201500023,"Gavriluta, A., Claiser, N., Kuhn, P.-S., Novitchi, G., Tommasino, J. B., Iasco, O., Druta, V., Arion, V. B. & Luneau, D. 2015 Osmium-Nitrosyl Oxalato-Bridged Lanthanide-Centered Pentanuclear Complexes - Synthesis, Crystal Structures and Magnetic Properties. European Journal of Inorganic Chemistry 2015, 1616–1624. (doi:10.1002/ejic.201500023)"
+2015_27,[Dy2(hfac)6(L)]·(CH2Cl2)2·C6H14,Diketonate,,Dy3+,Oblate,Kramers,100.0,,4.0,4346089.cif,Proper,Square antiprism,0.435,-2.2,1.055242,2015,2015,10.1021/acs.inorgchem.5b00272,"Feng, M., Pointillart, F., Lefeuvre, B., Dorcet, V., Golhen, S., Cador, O. & Ouahab, L. 2015 Multiple Single-Molecule Magnet Behaviors in Dysprosium Dinuclear Complexes Involving a Multiple Functionalized Tetrathiafulvalene-Based Ligand. Inorganic Chemistry 54, 4021–4028. (doi:10.1021/acs.inorgchem.5b00272)"
+2015_27,[Dy2(hfac)3(tta)3(L)],Diketonate,,Dy3+,Oblate,Kramers,100.0,,4.0,4346088.cif,Proper,Square antiprism,0.974,-3.4,1.085578,2015,2015,10.1021/acs.inorgchem.5b00272,"Feng, M., Pointillart, F., Lefeuvre, B., Dorcet, V., Golhen, S., Cador, O. & Ouahab, L. 2015 Multiple Single-Molecule Magnet Behaviors in Dysprosium Dinuclear Complexes Involving a Multiple Functionalized Tetrathiafulvalene-Based Ligand. Inorganic Chemistry 54, 4021–4028. (doi:10.1021/acs.inorgchem.5b00272)"
+2015_28,[DyCoIII(CN)6(hep)2(H2O)4],TM near Ln,,Dy3+,Oblate,Kramers,100.0,7.0,7.0,4346609.cif,Proper,Pentagonal bipyramid,0.252,0.8,0.980032,2015,2015,10.1021/acs.inorgchem.5b01763,"Zhang, Y. et al. 2015 Tuning the Origin of Magnetic Relaxation by Substituting the 3d or Rare-Earth Ions into Three Isostructural Cyano-Bridged 3d–4f Heterodinuclear Compounds. Inorganic Chemistry 54, 10316–10322. (doi:10.1021/acs.inorgchem.5b01763)"
+2015_29,[Dy(hfac)3(L)]·C6H14,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4342866.cif,Proper,Square antiprism,0.728,-4.100000000000001,1.1033405,2015,2015,10.1021/acs.inorgchem.5b00441,"Pointillart, F. et al. 2015 Luminescence and Single-Molecule Magnet Behavior in Lanthanide Complexes Involving a Tetrathiafulvalene-Fused Dipyridophenazine Ligand. Inorganic Chemistry 54, 5384–5397. (doi:10.1021/acs.inorgchem.5b00441)"
+2015_29,[Yb(hfac)3(L)]·C6H15,Diketonate,,Yb3+,Prolate,Kramers,100.0,8.0,4.0,,Isostructural,,,,,2015,2015,10.1021/acs.inorgchem.5b00441,"Pointillart, F. et al. 2015 Luminescence and Single-Molecule Magnet Behavior in Lanthanide Complexes Involving a Tetrathiafulvalene-Fused Dipyridophenazine Ligand. Inorganic Chemistry 54, 5384–5397. (doi:10.1021/acs.inorgchem.5b00441)"
+2015_29,[Dy(tta)3(L)]·C6H14,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4342867.cif,Proper,Square antiprism,0.507,-3.9,1.0982605,2015,2015,10.1021/acs.inorgchem.5b00441,"Pointillart, F. et al. 2015 Luminescence and Single-Molecule Magnet Behavior in Lanthanide Complexes Involving a Tetrathiafulvalene-Fused Dipyridophenazine Ligand. Inorganic Chemistry 54, 5384–5397. (doi:10.1021/acs.inorgchem.5b00441)"
+2015_29,[Yb(tta)3(L)]·C6H15,Diketonate,,Yb3+,Prolate,Kramers,100.0,8.0,4.0,,Isostructural,,,,,2015,2015,10.1021/acs.inorgchem.5b00441,"Pointillart, F. et al. 2015 Luminescence and Single-Molecule Magnet Behavior in Lanthanide Complexes Involving a Tetrathiafulvalene-Fused Dipyridophenazine Ligand. Inorganic Chemistry 54, 5384–5397. (doi:10.1021/acs.inorgchem.5b00441)"
+2015_30,Dy(tBu-acac)3bpy,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1519645.cif,Proper,Square antiprism,0.642,-3.4,1.085578,2015,2015,10.1039/c5sc01245g,"Qian, K., Baldoví, J. J., Jiang, S.-D., Gaita-Ariño, A., Zhang, Y.-Q., Overgaard, J., Wang, B.-W., Coronado, E. & Gao, S. 2015 Does the thermal evolution of molecular structures critically affect the magnetic anisotropy? Chemical Science 6, 4587–4593. (doi:10.1039/c5sc01245g)"
+2015_30,Dy(tBu-acac)3bpy,Diketonate,,Dy3+,Oblate,Kramers,5.0,8.0,4.0,,Isostructural,,,,,2015,2015,10.1039/c5sc01245g,"Qian, K., Baldoví, J. J., Jiang, S.-D., Gaita-Ariño, A., Zhang, Y.-Q., Overgaard, J., Wang, B.-W., Coronado, E. & Gao, S. 2015 Does the thermal evolution of molecular structures critically affect the magnetic anisotropy? Chemical Science 6, 4587–4593. (doi:10.1039/c5sc01245g)"
+2015_31,[Gd2Zn2L2(BA)6],TM near Ln,,Gd3+,Isotropic,Kramers,100.0,9.0,3.0,,Proper,,,,,2015,2015,10.1039/c5dt01382h,"Wu, J., Zhao, L., Zhang, P., Zhang, L., Guo, M. & Tang, J. 2015 Linear 3d–4f compounds: synthesis, structure, and determination of the d–f magnetic interaction. Dalton Transactions 44, 11935–11942. (doi:10.1039/c5dt01382h)"
+2015_31,[Tb2Zn2L2(BA)6],TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,9.0,3.0,1520133.cif,Proper,Spherical tricapped trigonal prism,2.895,4.9,0.8787005,2015,2015,10.1039/c5dt01382h,"Wu, J., Zhao, L., Zhang, P., Zhang, L., Guo, M. & Tang, J. 2015 Linear 3d–4f compounds: synthesis, structure, and determination of the d–f magnetic interaction. Dalton Transactions 44, 11935–11942. (doi:10.1039/c5dt01382h)"
+2015_31,[Dy2Zn2L2(BA)6],TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,1520126.cif,Proper,Spherical tricapped trigonal prism,2.64,4.7,0.8836045,2015,2015,10.1039/c5dt01382h,"Wu, J., Zhao, L., Zhang, P., Zhang, L., Guo, M. & Tang, J. 2015 Linear 3d–4f compounds: synthesis, structure, and determination of the d–f magnetic interaction. Dalton Transactions 44, 11935–11942. (doi:10.1039/c5dt01382h)"
+2015_32,[CoDy(HL)(AcO)3(H2O)3]·(AcO)(H2O)3,TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,5.0,7035353.cif,Proper,Muffin,0.853,1.1,0.9725605,2015,2015,10.1039/c5dt00960j,"Dolai, M., Ali, M., Titiš, J. & Boča, R. 2015 Cu(ii)–Dy(iii) and Co(iii)–Dy(iii) based single molecule magnets with multiple slow magnetic relaxation processes in the Cu(ii)–Dy(iii) complex. Dalton Transactions 44, 13242–13249. (doi:10.1039/c5dt00960j)"
+2015_33,{[Zn(Me2valpn)]2Dy(H2O)Co(CN)6}2·15H2O·2DMF·5CH3CN,TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,7036014.cif,Proper,Muffin,2.258,-3.2,1.080512,2015,2015,10.1039/c5dt02175h,"Hu, K.-Q., Jiang, X., Wu, S.-Q., Liu, C.-M., Cui, A.-L. & Kou, H.-Z. 2015 A trimetallic strategy towards ZnII4DyIII2CrIII2 and ZnII4DyIII2CoIII2 single-ion magnets. Dalton Transactions 44, 15413–15416. (doi:10.1039/c5dt02175h)"
+2015_35,[(LOEt)2Dy2(L1)],Schiff Base,,Dy3+,Oblate,Kramers,100.0,7.0,2.0,7036943.cif,Proper,Others,1.652,,,2015,2015,10.1039/c5dt03580e,"Gao, F., Yang, F.-L., Zhu, G.-Z. & Zhao, Y. 2015 Syntheses, structures, and magnetic properties of homodinuclear lanthanide complexes based on dinucleating Schiff base ligands. Dalton Transactions 44, 20232–20241. (doi:10.1039/c5dt03580e)"
+2015_35,[(LOEt)2Dy2(L1)],Schiff Base,,Dy3+,Oblate,Kramers,9.09090909090909,7.0,2.0,,Isostructural,,,,,2015,2015,10.1039/c5dt03580e,"Gao, F., Yang, F.-L., Zhu, G.-Z. & Zhao, Y. 2015 Syntheses, structures, and magnetic properties of homodinuclear lanthanide complexes based on dinucleating Schiff base ligands. Dalton Transactions 44, 20232–20241. (doi:10.1039/c5dt03580e)"
+2015_35,[(LOEt)2Tb2(L1)],Schiff Base,,Tb3+,Oblate,Non-Kramers,100.0,7.0,2.0,7036944.cif,Proper,Others,1.721,,,2015,2015,10.1039/c5dt03580e,"Gao, F., Yang, F.-L., Zhu, G.-Z. & Zhao, Y. 2015 Syntheses, structures, and magnetic properties of homodinuclear lanthanide complexes based on dinucleating Schiff base ligands. Dalton Transactions 44, 20232–20241. (doi:10.1039/c5dt03580e)"
+2015_35,[(LOEt)2Ho2(L1)],Schiff Base,,Ho3+,Oblate,Non-Kramers,100.0,7.0,2.0,7036945.cif,Proper,Others,1.617,,,2015,2015,10.1039/c5dt03580e,"Gao, F., Yang, F.-L., Zhu, G.-Z. & Zhao, Y. 2015 Syntheses, structures, and magnetic properties of homodinuclear lanthanide complexes based on dinucleating Schiff base ligands. Dalton Transactions 44, 20232–20241. (doi:10.1039/c5dt03580e)"
+2015_35,[(LOEt)2Gd2(L1)],Schiff Base,,Gd3+,Isotropic,Kramers,100.0,7.0,2.0,,Proper,,,,,2015,2015,10.1039/c5dt03580e,"Gao, F., Yang, F.-L., Zhu, G.-Z. & Zhao, Y. 2015 Syntheses, structures, and magnetic properties of homodinuclear lanthanide complexes based on dinucleating Schiff base ligands. Dalton Transactions 44, 20232–20241. (doi:10.1039/c5dt03580e)"
+2015_35,[(LOEt)2Dy2(L2)],Schiff Base,,Dy3+,Oblate,Kramers,100.0,7.0,2.0,7036946.cif,Proper,Capped trigonal prism,0.808,-2.7,1.0678645,2015,2015,10.1039/c5dt03580e,"Gao, F., Yang, F.-L., Zhu, G.-Z. & Zhao, Y. 2015 Syntheses, structures, and magnetic properties of homodinuclear lanthanide complexes based on dinucleating Schiff base ligands. Dalton Transactions 44, 20232–20241. (doi:10.1039/c5dt03580e)"
+2015_35,[(LOEt)2Tb2(L2)],Schiff Base,,Tb3+,Oblate,Non-Kramers,100.0,7.0,2.0,7036947.cif,Proper,Capped trigonal prism,0.832,-2.7,1.0678645,2015,2015,10.1039/c5dt03580e,"Gao, F., Yang, F.-L., Zhu, G.-Z. & Zhao, Y. 2015 Syntheses, structures, and magnetic properties of homodinuclear lanthanide complexes based on dinucleating Schiff base ligands. Dalton Transactions 44, 20232–20241. (doi:10.1039/c5dt03580e)"
+2015_35,[(LOEt)2Ho2(L2)],Schiff Base,,Ho3+,Oblate,Non-Kramers,100.0,7.0,2.0,7036948.cif,Proper,Capped trigonal prism,0.766,-2.8,1.070392,2015,2015,10.1039/c5dt03580e,"Gao, F., Yang, F.-L., Zhu, G.-Z. & Zhao, Y. 2015 Syntheses, structures, and magnetic properties of homodinuclear lanthanide complexes based on dinucleating Schiff base ligands. Dalton Transactions 44, 20232–20241. (doi:10.1039/c5dt03580e)"
+2015_35,[(LOEt)2Gd2(L2)],Schiff Base,,Gd3+,Isotropic,Kramers,100.0,7.0,2.0,,Proper,,,,,2015,2015,10.1039/c5dt03580e,"Gao, F., Yang, F.-L., Zhu, G.-Z. & Zhao, Y. 2015 Syntheses, structures, and magnetic properties of homodinuclear lanthanide complexes based on dinucleating Schiff base ligands. Dalton Transactions 44, 20232–20241. (doi:10.1039/c5dt03580e)"
+2015_36,[Cu3Dy(L)6]n,TM near Ln,,Dy3+,Oblate,Kramers,100.0,6.0,4.0,1402924.cif,Proper,Octahedron,0.071,-1.3,1.0325845,2015,2015,10.1002/ejic.201500799,"Han, S.-D., Wang, Q.-L., Xu, J. & Bu, X.-H. 2015 Anion-Triggered Modulation of Structure and Magnetic Properties of Copper(I)-Dysprosium(III) Complexes Derived from 1-Hydroxybenzotriazolate. European Journal of Inorganic Chemistry 2015, 5379–5386. (doi:10.1002/ejic.201500799)"
+2015_36,[Cu5DyBr(L)7(H2O)2]n,TM near Ln,,Dy3+,Oblate,Kramers,100.0,7.0,4.0,1402813.cif,Proper,Capped trigonal prism,1.817,-0.2,1.005002,2015,2015,10.1002/ejic.201500799,"Han, S.-D., Wang, Q.-L., Xu, J. & Bu, X.-H. 2015 Anion-Triggered Modulation of Structure and Magnetic Properties of Copper(I)-Dysprosium(III) Complexes Derived from 1-Hydroxybenzotriazolate. European Journal of Inorganic Chemistry 2015, 5379–5386. (doi:10.1002/ejic.201500799)"
+2015_37,TbCdCdTb(obPc)5,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,4342718.cif,Proper,Others,2.602,,,2015,2015,10.1021/ic502951t,"Horii, Y., Katoh, K., Yasuda, N., Breedlove, B. K. & Yamashita, M. 2015 Effects of f–f Interactions on the Single-Molecule Magnet Properties of Terbium(III)–Phthalocyaninato Quintuple-Decker Complexes. Inorganic Chemistry 54, 3297–3305. (doi:10.1021/ic502951t)"
+2015_38,[(Cp*)Dy(DBM)2(THF)]·solvent,Mixed Ligands,10100.0,Dy3+,Oblate,Kramers,100.0,,4.0,4343049.cif,Proper,,,,,2015,2015,10.1021/ic502734z,"Liu, S.-S. et al. 2015 Half-Sandwich Complexes of DyIII: A Janus-Motif with Facile Tunability of Magnetism. Inorganic Chemistry 54, 5162–5168. (doi:10.1021/ic502734z)"
+2015_38,[(Cp4PrPh)Dy(DBM)2(THF)]·solvent,Mixed Ligands,10100.0,Dy3+,Oblate,Kramers,100.0,,4.0,4343050.cif,Proper,,,,,2015,2015,10.1021/ic502734z,"Liu, S.-S. et al. 2015 Half-Sandwich Complexes of DyIII: A Janus-Motif with Facile Tunability of Magnetism. Inorganic Chemistry 54, 5162–5168. (doi:10.1021/ic502734z)"
+2015_38,[(Cp')Dy(DBM)2(THF)]·solvent,Mixed Ligands,10100.0,Dy3+,Oblate,Kramers,100.0,,4.0,4343048.cif,Proper,,,,,2015,2015,10.1021/ic502734z,"Liu, S.-S. et al. 2015 Half-Sandwich Complexes of DyIII: A Janus-Motif with Facile Tunability of Magnetism. Inorganic Chemistry 54, 5162–5168. (doi:10.1021/ic502734z)"
+2015_39,[Gd(Tpz)2Bpz]·0.5CH2Cl2,Other Families,,Gd3+,Isotropic,Kramers,100.0,9.0,3.0,,Proper,,,,,2015,2015,10.1021/acs.inorgchem.5b00432,"Lannes, A. & Luneau, D. 2015 New Family of Lanthanide-Based Complexes with Different Scorpionate-Type Ligands: A Rare Case Where Dysprosium and Ytterbium Analogues Display Single-Ion-Magnet Behavior. Inorganic Chemistry 54, 6736–6743. (doi:10.1021/acs.inorgchem.5b00432)"
+2015_39,[Tb(Tpz)2Bpz]·0.5CH2Cl3,Other Families,,Tb3+,Oblate,Non-Kramers,100.0,9.0,3.0,4343508.cif,Proper,,,,,2015,2015,10.1021/acs.inorgchem.5b00432,"Lannes, A. & Luneau, D. 2015 New Family of Lanthanide-Based Complexes with Different Scorpionate-Type Ligands: A Rare Case Where Dysprosium and Ytterbium Analogues Display Single-Ion-Magnet Behavior. Inorganic Chemistry 54, 6736–6743. (doi:10.1021/acs.inorgchem.5b00432)"
+2015_39,[Dy(Tpz)2Bpz]·0.5CH2Cl4,Other Families,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,4343507.cif,Proper,,,,,2015,2015,10.1021/acs.inorgchem.5b00432,"Lannes, A. & Luneau, D. 2015 New Family of Lanthanide-Based Complexes with Different Scorpionate-Type Ligands: A Rare Case Where Dysprosium and Ytterbium Analogues Display Single-Ion-Magnet Behavior. Inorganic Chemistry 54, 6736–6743. (doi:10.1021/acs.inorgchem.5b00432)"
+2015_39,[Ho(Tpz)2Bpz]·0.5CH2Cl5,Other Families,,Ho3+,Oblate,Non-Kramers,100.0,9.0,3.0,4343504.cif,Proper,,,,,2015,2015,10.1021/acs.inorgchem.5b00432,"Lannes, A. & Luneau, D. 2015 New Family of Lanthanide-Based Complexes with Different Scorpionate-Type Ligands: A Rare Case Where Dysprosium and Ytterbium Analogues Display Single-Ion-Magnet Behavior. Inorganic Chemistry 54, 6736–6743. (doi:10.1021/acs.inorgchem.5b00432)"
+2015_39,[Yb(Tpz)2Bpz]·CH2Cl2,Other Families,,Yb3+,Prolate,Kramers,100.0,9.0,3.0,4343505.cif,Proper,,,,,2015,2015,10.1021/acs.inorgchem.5b00432,"Lannes, A. & Luneau, D. 2015 New Family of Lanthanide-Based Complexes with Different Scorpionate-Type Ligands: A Rare Case Where Dysprosium and Ytterbium Analogues Display Single-Ion-Magnet Behavior. Inorganic Chemistry 54, 6736–6743. (doi:10.1021/acs.inorgchem.5b00432)"
+2015_40,[CoIII2Dy(L)2(µ-O2CCH3)2(H2O)3]·NO3·MeOH·4H2O,TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,1018883.cif,Proper,Spherical tricapped trigonal prism,1.678,3.7,0.9081845,2015,2015,10.1002/chem.201406021,"Goura, J., Brambleby, J., Goddard, P. & Chandrasekhar, V. 2015 A Single-Ion Magnet Based on a Heterometallic CoIII2DyIIIComplex. Chemistry - A European Journal 21, 4926–4930. (doi:10.1002/chem.201406021)"
+2015_41,DyMg2L2,TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,1020216.cif,Proper,Square antiprism,1.113,-2.5,1.0628125,2015,2015,10.1002/chem.201406666,"Das, S. et al. 2015 Amending the Anisotropy Barrier and Luminescence Behavior of Heterometallic Trinuclear Linear [MIILnIIIMII] (LnIII=Gd, Tb, Dy; MII=Mg/Zn) Complexes by Change from Divalent Paramagnetic to Diamagnetic Metal Ions. Chemistry - A European Journal 21, 6449–6464. (doi:10.1002/chem.201406666)"
+2015_41,DyMg2L2,TM near Ln,,Dy3+,Oblate,Kramers,10.8,8.0,2.0,,Isostructural,,,,,2015,2015,10.1002/chem.201406666,"Das, S. et al. 2015 Amending the Anisotropy Barrier and Luminescence Behavior of Heterometallic Trinuclear Linear [MIILnIIIMII] (LnIII=Gd, Tb, Dy; MII=Mg/Zn) Complexes by Change from Divalent Paramagnetic to Diamagnetic Metal Ions. Chemistry - A European Journal 21, 6449–6464. (doi:10.1002/chem.201406666)"
+2015_41,GdMg2L2,TM near Ln,,Gd3+,Isotropic,Kramers,100.0,8.0,2.0,,Proper,,,,,2015,2015,10.1002/chem.201406666,"Das, S. et al. 2015 Amending the Anisotropy Barrier and Luminescence Behavior of Heterometallic Trinuclear Linear [MIILnIIIMII] (LnIII=Gd, Tb, Dy; MII=Mg/Zn) Complexes by Change from Divalent Paramagnetic to Diamagnetic Metal Ions. Chemistry - A European Journal 21, 6449–6464. (doi:10.1002/chem.201406666)"
+2015_41,TbMg2L2,TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,1020218.cif,Proper,Square antiprism,1.134,-2.5,1.0628125,2015,2015,10.1002/chem.201406666,"Das, S. et al. 2015 Amending the Anisotropy Barrier and Luminescence Behavior of Heterometallic Trinuclear Linear [MIILnIIIMII] (LnIII=Gd, Tb, Dy; MII=Mg/Zn) Complexes by Change from Divalent Paramagnetic to Diamagnetic Metal Ions. Chemistry - A European Journal 21, 6449–6464. (doi:10.1002/chem.201406666)"
+2015_41,DyZn2L2,TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,1020219.cif,Proper,Square antiprism,0.918,-2.5,1.0628125,2015,2015,10.1002/chem.201406666,"Das, S. et al. 2015 Amending the Anisotropy Barrier and Luminescence Behavior of Heterometallic Trinuclear Linear [MIILnIIIMII] (LnIII=Gd, Tb, Dy; MII=Mg/Zn) Complexes by Change from Divalent Paramagnetic to Diamagnetic Metal Ions. Chemistry - A European Journal 21, 6449–6464. (doi:10.1002/chem.201406666)"
+2015_41,DyZn2L2,TM near Ln,,Dy3+,Oblate,Kramers,10.2,8.0,2.0,,Isostructural,,,,,2015,2015,10.1002/chem.201406666,"Das, S. et al. 2015 Amending the Anisotropy Barrier and Luminescence Behavior of Heterometallic Trinuclear Linear [MIILnIIIMII] (LnIII=Gd, Tb, Dy; MII=Mg/Zn) Complexes by Change from Divalent Paramagnetic to Diamagnetic Metal Ions. Chemistry - A European Journal 21, 6449–6464. (doi:10.1002/chem.201406666)"
+2015_41,GdZn2L2,TM near Ln,,Gd3+,Isotropic,Kramers,100.0,8.0,2.0,,Proper,,,,,2015,2015,10.1002/chem.201406666,"Das, S. et al. 2015 Amending the Anisotropy Barrier and Luminescence Behavior of Heterometallic Trinuclear Linear [MIILnIIIMII] (LnIII=Gd, Tb, Dy; MII=Mg/Zn) Complexes by Change from Divalent Paramagnetic to Diamagnetic Metal Ions. Chemistry - A European Journal 21, 6449–6464. (doi:10.1002/chem.201406666)"
+2015_41,TbZn2L2,TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,1020221.cif,Proper,Square antiprism,0.878,-2.3,1.0577645,2015,2015,10.1002/chem.201406666,"Das, S. et al. 2015 Amending the Anisotropy Barrier and Luminescence Behavior of Heterometallic Trinuclear Linear [MIILnIIIMII] (LnIII=Gd, Tb, Dy; MII=Mg/Zn) Complexes by Change from Divalent Paramagnetic to Diamagnetic Metal Ions. Chemistry - A European Journal 21, 6449–6464. (doi:10.1002/chem.201406666)"
+2015_42,[Dy(notpH4)(H2O)]ClO4·3H2O,P=O,,Dy3+,Oblate,Kramers,100.0,7.0,2.0,4348425.cif,Proper,Pentagonal bipyramid,1.686,2.8,0.930392,2015,2015,10.1039/c4qi00242c,"Ren, M., Bao, S.-S., Wang, B.-W., Ferreira, R. A. S., Zheng, L.-M. & Carlos, L. D. 2015 Lanthanide phosphonates with pseudo-D5h local symmetry exhibiting magnetic and luminescence bifunctional properties. Inorganic Chemistry Frontiers 2, 558–566. (doi:10.1039/c4qi00242c)"
+2015_42,[Dy(notpH4)(H2O)]ClO4·3H2O,P=O,,Dy3+,Oblate,Kramers,10.0,7.0,2.0,,Isostructural,,,,,2015,2015,10.1039/c4qi00242c,"Ren, M., Bao, S.-S., Wang, B.-W., Ferreira, R. A. S., Zheng, L.-M. & Carlos, L. D. 2015 Lanthanide phosphonates with pseudo-D5h local symmetry exhibiting magnetic and luminescence bifunctional properties. Inorganic Chemistry Frontiers 2, 558–566. (doi:10.1039/c4qi00242c)"
+2015_42,[Ho(notpH4)(H2O)]ClO4·3H2O,P=O,,Ho3+,Oblate,Non-Kramers,100.0,7.0,2.0,4348426.cif,Proper,Pentagonal bipyramid,1.71,2.9,0.9279205,2015,2015,10.1039/c4qi00242c,"Ren, M., Bao, S.-S., Wang, B.-W., Ferreira, R. A. S., Zheng, L.-M. & Carlos, L. D. 2015 Lanthanide phosphonates with pseudo-D5h local symmetry exhibiting magnetic and luminescence bifunctional properties. Inorganic Chemistry Frontiers 2, 558–566. (doi:10.1039/c4qi00242c)"
+2015_43,Dy(DBM)3(bpy),Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4348912.cif,Proper,Square antiprism,1.299,-4.8,1.121152,2015,2015,10.1039/c5qi00079c,"Dong, Y., Yan, P., Zou, X. & Li, G. 2015 Azacyclo-auxiliary ligand-tuned SMMs of dibenzoylmethane Dy(iii) complexes. Inorganic Chemistry Frontiers 2, 827–836. (doi:10.1039/c5qi00079c)"
+2015_43,Dy(DBM)3(phen)·Tol,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4348913.cif,Proper,Triangular dodecahedron,0.645,3.1,0.9229805,2015,2015,10.1039/c5qi00079c,"Dong, Y., Yan, P., Zou, X. & Li, G. 2015 Azacyclo-auxiliary ligand-tuned SMMs of dibenzoylmethane Dy(iii) complexes. Inorganic Chemistry Frontiers 2, 827–836. (doi:10.1039/c5qi00079c)"
+2015_43,Dy(DBM)3(dpq)·Tol,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4348914.cif,Proper,Square antiprism,1.132,-4.100000000000001,1.1033405,2015,2015,10.1039/c5qi00079c,"Dong, Y., Yan, P., Zou, X. & Li, G. 2015 Azacyclo-auxiliary ligand-tuned SMMs of dibenzoylmethane Dy(iii) complexes. Inorganic Chemistry Frontiers 2, 827–836. (doi:10.1039/c5qi00079c)"
+2015_43,Dy(DBM)3(dppz),Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4348915.cif,Proper,Triangular dodecahedron,0.849,3.2,0.920512,2015,2015,10.1039/c5qi00079c,"Dong, Y., Yan, P., Zou, X. & Li, G. 2015 Azacyclo-auxiliary ligand-tuned SMMs of dibenzoylmethane Dy(iii) complexes. Inorganic Chemistry Frontiers 2, 827–836. (doi:10.1039/c5qi00079c)"
+2015_44,[Tb(hma)(NO3)2(CH3OH)]∙0.5C4H10,Other Families,0.0,Tb3+,Oblate,Non-Kramers,100.0,9.0,4.0,1036512.cif,Proper,Spherical tricapped trigonal prism,2.059,7.6,0.812888,2015,2015,10.1016/j.inoche.2015.03.029,"Duan, F., Liu, L., Qiao, C. & Yang, H. 2015 Self-assembly and magnetic behavior of 2-aldehyde-8-hydroxyquinolinate-based lanthanide complex. Inorganic Chemistry Communications 55, 120–122. (doi:10.1016/j.inoche.2015.03.029)"
+2015_44,[Dy(hma)(NO3)2(CH3OH)]∙0.5C4H11,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,4.0,1036513.cif,Proper,Spherical tricapped trigonal prism,1.989,7.399999999999999,0.817738,2015,2015,10.1016/j.inoche.2015.03.029,"Duan, F., Liu, L., Qiao, C. & Yang, H. 2015 Self-assembly and magnetic behavior of 2-aldehyde-8-hydroxyquinolinate-based lanthanide complex. Inorganic Chemistry Communications 55, 120–122. (doi:10.1016/j.inoche.2015.03.029)"
+2015_45,[Gd(hfac)3(NITThioPh)2],Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,Proper,,,,,2015,2015,10.1016/j.inoche.2015.05.004,"Li, L., Liu, S., Zhang, Y., Xu, N. & Cheng, P. 2015 Two new mononuclear tri-spin lanthanide–nitronyl nitroxide radical complexes: Syntheses, structure and magnetic properties. Inorganic Chemistry Communications 57, 51–53. (doi:10.1016/j.inoche.2015.05.004)"
+2015_45,[Tb(hfac)3(NITThioPh)2],Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,1052710.cif,Proper,Triangular dodecahedron,0.114,0.1,0.9975005,2015,2015,10.1016/j.inoche.2015.05.004,"Li, L., Liu, S., Zhang, Y., Xu, N. & Cheng, P. 2015 Two new mononuclear tri-spin lanthanide–nitronyl nitroxide radical complexes: Syntheses, structure and magnetic properties. Inorganic Chemistry Communications 57, 51–53. (doi:10.1016/j.inoche.2015.05.004)"
+2015_46,[Ln2(hfac)6(L)]·(CH2Cl2)·(C6H14)0.5,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,,,,,,,2015,2015,10.3390/inorganics3040554,"Pointillart, F., Speed, S., Lefeuvre, B., Riobé, F., Golhen, S., Le Guennic, B., Cador, O., Maury, O. & Ouahab, L. 2015 Magnetic and Photo-Physical Properties of Lanthanide Dinuclear Complexes Involving the 4,5-Bis(2-Pyridyl-N-Oxidemethylthio)-4′,5′-Dicarboxylic Acid-Tetrathiafulvalene-, Dimethyl Ester Ligand. Inorganics 3, 554–572. (doi:10.3390/inorganics3040554)"
+2015_46,[Ln2(hfac)6(L)]·(CH2Cl2)·(C6H14)0.5,Diketonate,,Yb3+,Prolate,Kramers,100.0,8.0,5.0,,,,,,,2015,2015,10.3390/inorganics3040554,"Pointillart, F., Speed, S., Lefeuvre, B., Riobé, F., Golhen, S., Le Guennic, B., Cador, O., Maury, O. & Ouahab, L. 2015 Magnetic and Photo-Physical Properties of Lanthanide Dinuclear Complexes Involving the 4,5-Bis(2-Pyridyl-N-Oxidemethylthio)-4′,5′-Dicarboxylic Acid-Tetrathiafulvalene-, Dimethyl Ester Ligand. Inorganics 3, 554–572. (doi:10.3390/inorganics3040554)"
+2015_47,[Cp′3Pr],Metallocene,,Pr3+,Oblate,Non-Kramers,100.0,3.0,3.0,,,,,,,2015,2015,10.1021/jacs.5b03710,"Meihaus, K. R., Fieser, M. E., Corbey, J. F., Evans, W. J. & Long, J. R. 2015 Record High Single-Ion Magnetic Moments Through 4fn5d1 Electron Configurations in the Divalent Lanthanide Complexes [(C5H4SiMe3)3Ln]−. Journal of the American Chemical Society 137, 9855–9860. (doi:10.1021/jacs.5b03710)"
+2015_47,[Cp′3Nd],Metallocene,,Nd3+,Oblate,Kramers,100.0,3.0,3.0,,,,,,,2015,2015,10.1021/jacs.5b03710,"Meihaus, K. R., Fieser, M. E., Corbey, J. F., Evans, W. J. & Long, J. R. 2015 Record High Single-Ion Magnetic Moments Through 4fn5d1 Electron Configurations in the Divalent Lanthanide Complexes [(C5H4SiMe3)3Ln]−. Journal of the American Chemical Society 137, 9855–9860. (doi:10.1021/jacs.5b03710)"
+2015_47,[Cp′3Sm],Metallocene,,Sm3+,Prolate,Kramers,100.0,3.0,3.0,,,,,,,2015,2015,10.1021/jacs.5b03710,"Meihaus, K. R., Fieser, M. E., Corbey, J. F., Evans, W. J. & Long, J. R. 2015 Record High Single-Ion Magnetic Moments Through 4fn5d1 Electron Configurations in the Divalent Lanthanide Complexes [(C5H4SiMe3)3Ln]−. Journal of the American Chemical Society 137, 9855–9860. (doi:10.1021/jacs.5b03710)"
+2015_47,[Cp′3Gd],Metallocene,,Gd3+,Isotropic,Kramers,100.0,3.0,3.0,,,,,,,2015,2015,10.1021/jacs.5b03710,"Meihaus, K. R., Fieser, M. E., Corbey, J. F., Evans, W. J. & Long, J. R. 2015 Record High Single-Ion Magnetic Moments Through 4fn5d1 Electron Configurations in the Divalent Lanthanide Complexes [(C5H4SiMe3)3Ln]−. Journal of the American Chemical Society 137, 9855–9860. (doi:10.1021/jacs.5b03710)"
+2015_47,[Cp′3Tb],Metallocene,,Tb3+,Oblate,Non-Kramers,100.0,3.0,3.0,,,,,,,2015,2015,10.1021/jacs.5b03710,"Meihaus, K. R., Fieser, M. E., Corbey, J. F., Evans, W. J. & Long, J. R. 2015 Record High Single-Ion Magnetic Moments Through 4fn5d1 Electron Configurations in the Divalent Lanthanide Complexes [(C5H4SiMe3)3Ln]−. Journal of the American Chemical Society 137, 9855–9860. (doi:10.1021/jacs.5b03710)"
+2015_47,[Cp′3Dy],Metallocene,,Dy3+,Oblate,Kramers,100.0,3.0,3.0,,,,,,,2015,2015,10.1021/jacs.5b03710,"Meihaus, K. R., Fieser, M. E., Corbey, J. F., Evans, W. J. & Long, J. R. 2015 Record High Single-Ion Magnetic Moments Through 4fn5d1 Electron Configurations in the Divalent Lanthanide Complexes [(C5H4SiMe3)3Ln]−. Journal of the American Chemical Society 137, 9855–9860. (doi:10.1021/jacs.5b03710)"
+2015_47,[Cp′3Ho],Metallocene,,Ho3+,Oblate,Non-Kramers,100.0,3.0,3.0,,,,,,,2015,2015,10.1021/jacs.5b03710,"Meihaus, K. R., Fieser, M. E., Corbey, J. F., Evans, W. J. & Long, J. R. 2015 Record High Single-Ion Magnetic Moments Through 4fn5d1 Electron Configurations in the Divalent Lanthanide Complexes [(C5H4SiMe3)3Ln]−. Journal of the American Chemical Society 137, 9855–9860. (doi:10.1021/jacs.5b03710)"
+2015_47,[Cp′3Er],Metallocene,,Er3+,Prolate,Kramers,100.0,3.0,3.0,,,,,,,2015,2015,10.1021/jacs.5b03710,"Meihaus, K. R., Fieser, M. E., Corbey, J. F., Evans, W. J. & Long, J. R. 2015 Record High Single-Ion Magnetic Moments Through 4fn5d1 Electron Configurations in the Divalent Lanthanide Complexes [(C5H4SiMe3)3Ln]−. Journal of the American Chemical Society 137, 9855–9860. (doi:10.1021/jacs.5b03710)"
+2015_47,[Cp′3Tm],Metallocene,,Tm3+,Prolate,Non-Kramers,100.0,3.0,3.0,,,,,,,2015,2015,10.1021/jacs.5b03710,"Meihaus, K. R., Fieser, M. E., Corbey, J. F., Evans, W. J. & Long, J. R. 2015 Record High Single-Ion Magnetic Moments Through 4fn5d1 Electron Configurations in the Divalent Lanthanide Complexes [(C5H4SiMe3)3Ln]−. Journal of the American Chemical Society 137, 9855–9860. (doi:10.1021/jacs.5b03710)"
+2015_48,{C(NH2)3}5[Er(CO3)4]·11H2O,Other Families,,Er3+,Prolate,Kramers,100.0,8.0,4.0,,,,,,,2015,2015,10.1021/jacs.5b08344,"Rechkemmer, Y. et al. 2015 Comprehensive Spectroscopic Determination of the Crystal Field Splitting in an Erbium Single-Ion Magnet. Journal of the American Chemical Society 137, 13114–13120. (doi:10.1021/jacs.5b08344)"
+2015_49,Dy(EIFD)3(H2O)·CH2Cl2,Diketonate,,Dy3+,Oblate,Kramers,100.0,7.0,4.0,7234196.cif,Proper,Others,0.534,,,2015,2015,10.1039/c5tc00321k,"Dong, Y., Yan, P., Zou, X., Liu, T. & Li, G. 2015 Exploiting single-molecule magnets of β-diketone dysprosium complexes with C3v symmetry: suppression of quantum tunneling of magnetization. Journal of Materials Chemistry C 3, 4407–4415. (doi:10.1039/c5tc00321k)"
+2015_49,Dy(EIFD)3(DMF)·CH2Cl2,Diketonate,,Dy3+,Oblate,Kramers,100.0,7.0,4.0,7234197.cif,Proper,Others,0.837,,,2015,2015,10.1039/c5tc00321k,"Dong, Y., Yan, P., Zou, X., Liu, T. & Li, G. 2015 Exploiting single-molecule magnets of β-diketone dysprosium complexes with C3v symmetry: suppression of quantum tunneling of magnetization. Journal of Materials Chemistry C 3, 4407–4415. (doi:10.1039/c5tc00321k)"
+2015_49,Dy(EIFD)3(DMSO),Diketonate,,Dy3+,Oblate,Kramers,100.0,7.0,4.0,7234198.cif,Proper,Others,1.512,,,2015,2015,10.1039/c5tc00321k,"Dong, Y., Yan, P., Zou, X., Liu, T. & Li, G. 2015 Exploiting single-molecule magnets of β-diketone dysprosium complexes with C3v symmetry: suppression of quantum tunneling of magnetization. Journal of Materials Chemistry C 3, 4407–4415. (doi:10.1039/c5tc00321k)"
+2015_49,Dy(EIFD)3(TPPO),Diketonate,,Dy3+,Oblate,Kramers,100.0,7.0,4.0,7234199.cif,Proper,Pentagonal bipyramid,2.257,0.6,0.985018,2015,2015,10.1039/c5tc00321k,"Dong, Y., Yan, P., Zou, X., Liu, T. & Li, G. 2015 Exploiting single-molecule magnets of β-diketone dysprosium complexes with C3v symmetry: suppression of quantum tunneling of magnetization. Journal of Materials Chemistry C 3, 4407–4415. (doi:10.1039/c5tc00321k)"
+2015_50,[Dy(15C5)(H2O)4](ClO4)3(15C5)·H2O,Crown Ether,,Dy3+,Oblate,Kramers,100.0,9.0,5.0,7234307.cif,Proper,Muffin,1.201,-1.8,1.045162,2015,2015,10.1039/c5tc01264c,"Gavey, E. L., Al Hareri, M., Regier, J., Carlos, L. D., Ferreira, R. A. S., Razavi, F. S., Rawson, J. M. & Pilkington, M. 2015 Placing a crown on DyIII – a dual property LnIII crown ether complex displaying optical properties and SMM behaviour. Journal of Materials Chemistry C 3, 7738–7747. (doi:10.1039/c5tc01264c)"
+2015_50,[Dy(12C4)(H2O)5](ClO4)3·H2O,Crown Ether,,Dy3+,Oblate,Kramers,100.0,9.0,6.0,7234306.cif,Proper,Spherical capped square antiprism,0.517,-2.6,1.065338,2015,2015,10.1039/c5tc01264c,"Gavey, E. L., Al Hareri, M., Regier, J., Carlos, L. D., Ferreira, R. A. S., Razavi, F. S., Rawson, J. M. & Pilkington, M. 2015 Placing a crown on DyIII – a dual property LnIII crown ether complex displaying optical properties and SMM behaviour. Journal of Materials Chemistry C 3, 7738–7747. (doi:10.1039/c5tc01264c)"
+2015_50,[Dy(12C4)(H2O)5](ClO4)3·H2O,Crown Ether,,Dy3+,Oblate,Kramers,12.0,9.0,6.0,,Isostructural,,,,,2015,2015,10.1039/c5tc01264c,"Gavey, E. L., Al Hareri, M., Regier, J., Carlos, L. D., Ferreira, R. A. S., Razavi, F. S., Rawson, J. M. & Pilkington, M. 2015 Placing a crown on DyIII – a dual property LnIII crown ether complex displaying optical properties and SMM behaviour. Journal of Materials Chemistry C 3, 7738–7747. (doi:10.1039/c5tc01264c)"
+2015_51,[Dy(hfac)3(NITPh-p-Cl)2·0.5CH3(CH2)5CH3],Radical,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,957787.cif,Proper,Triangular dodecahedron,0.125,-0.7000000000000001,1.0175245,2015,2015,10.1016/j.molstruc.2014.10.051,"Zhang, C.-X., Qiao, X.-M., Kong, Y.-K., Wang, B., Zhang, Y.-Y. & Wang, Q.-L. 2015 Two Lanthanide–nitronyl nitroxide radicals compounds with slow magnetic relaxation behavior. Journal of Molecular Structure 1081, 348–354. (doi:10.1016/j.molstruc.2014.10.051)"
+2015_51,[Tb(hfac)3(NITPh-p-Cl)2],Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,957788.cif,Proper,Triangular dodecahedron,0.126,-0.7000000000000001,1.0175245,2015,2015,10.1016/j.molstruc.2014.10.051,"Zhang, C.-X., Qiao, X.-M., Kong, Y.-K., Wang, B., Zhang, Y.-Y. & Wang, Q.-L. 2015 Two Lanthanide–nitronyl nitroxide radicals compounds with slow magnetic relaxation behavior. Journal of Molecular Structure 1081, 348–354. (doi:10.1016/j.molstruc.2014.10.051)"
+2015_52,[Er(F-TPIP)3],P=O,,Er3+,Prolate,Kramers,100.0,6.0,3.0,,,,,,,2015,2015,10.1016/j.matchemphys.2015.04.059,"Coutinho, J. T. et al. 2015 Field-induced single-ion magnetic behaviour in a highly luminescent Er3+ complex. Materials Chemistry and Physics 160, 429–434. (doi:10.1016/j.matchemphys.2015.04.059)"
+2015_53,[Dy(ZnL)2(CH3COO)Cl2]·CH2Cl2,TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,1038836.cif,Proper,Triangular dodecahedron,2.692,5.2,0.871352,2015,2015,10.1002/zaac.201400610,"Shan, P.-Y., Li, H.-F., Chen, P., Tian, Y.-M., Sun, W.-B. & Yan, P.-F. 2015 Synthesis, Crystal Structure, and Single-Molecule Magnetic Properties of a Salen-type Zn-Dy-Zn Complex. Zeitschrift für anorganische und allgemeine Chemie 641, 1119–1124. (doi:10.1002/zaac.201400610)"
+2015_54,[Li(DME)3][NdIII(COT″)2],Metallocene,,Nd3+,Oblate,Kramers,100.0,2.0,2.0,4085666.cif,Proper,,,,,2015,2015,10.1021/om501214c,"Le Roy, J. J., Gorelsky, S. I., Korobkov, I. & Murugesu, M. 2015 Slow Magnetic Relaxation in Uranium(III) and Neodymium(III) Cyclooctatetraenyl Complexes. Organometallics 34, 1415–1418. (doi:10.1021/om501214c)"
+2015_55,Dy(Murex)3·xH2O,Other Families,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,7036583.cif,Proper,Spherical capped square antiprism,0.92,0.5,0.9875125,2015,2015,10.1039/c5dt03345d,"Jung, J. et al. 2015 Analysis of the electrostatics in DyIII single-molecule magnets: the case study of Dy(Murex)3. Dalton Transactions 44, 18270–18275. (doi:10.1039/c5dt03345d)"
+2015_56,[Pr(hfac)3(NITPymbis)2]2,Radical,,Pr3+,Oblate,Non-Kramers,100.0,8.0,4.0,7219446.cif,Proper,Biaugmented trigonal prism,1.206,-2.6,1.065338,2015,2015,10.1039/c4ra15074k,"Zhou, S. Y., Li, X., Li, T., Tian, L., Liu, Z. Y. & Wang, X. G. 2015 A series of heterospin complexes based on lanthanides and pyridine biradicals: synthesis, structure and magnetic properties. RSC Advances 5, 17131–17139. (doi:10.1039/c4ra15074k)"
+2015_56,[Nd(hfac)3(NITPymbis)2]2,Radical,,Nd3+,Oblate,Kramers,100.0,8.0,4.0,7219443.cif,Proper,Biaugmented trigonal prism,1.184,-3.3,1.0830445,2015,2015,10.1039/c4ra15074k,"Zhou, S. Y., Li, X., Li, T., Tian, L., Liu, Z. Y. & Wang, X. G. 2015 A series of heterospin complexes based on lanthanides and pyridine biradicals: synthesis, structure and magnetic properties. RSC Advances 5, 17131–17139. (doi:10.1039/c4ra15074k)"
+2015_56,[Sm(hfac)3(NITPymbis)2]2,Radical,,Sm3+,Prolate,Kramers,100.0,8.0,4.0,7219444.cif,Proper,Biaugmented trigonal prism,1.059,-3.5,1.0881125,2015,2015,10.1039/c4ra15074k,"Zhou, S. Y., Li, X., Li, T., Tian, L., Liu, Z. Y. & Wang, X. G. 2015 A series of heterospin complexes based on lanthanides and pyridine biradicals: synthesis, structure and magnetic properties. RSC Advances 5, 17131–17139. (doi:10.1039/c4ra15074k)"
+2015_56,[Gd(hfac)3(NITPymbis)2]2,Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,4.0,,Proper,,,,,2015,2015,10.1039/c4ra15074k,"Zhou, S. Y., Li, X., Li, T., Tian, L., Liu, Z. Y. & Wang, X. G. 2015 A series of heterospin complexes based on lanthanides and pyridine biradicals: synthesis, structure and magnetic properties. RSC Advances 5, 17131–17139. (doi:10.1039/c4ra15074k)"
+2015_56,[Tb(hfac)3(NITPymbis)2]2,Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,7219442.cif,Proper,Biaugmented trigonal prism,0.872,-1.9,1.0476805,2015,2015,10.1039/c4ra15074k,"Zhou, S. Y., Li, X., Li, T., Tian, L., Liu, Z. Y. & Wang, X. G. 2015 A series of heterospin complexes based on lanthanides and pyridine biradicals: synthesis, structure and magnetic properties. RSC Advances 5, 17131–17139. (doi:10.1039/c4ra15074k)"
+2015_56,[Dy(hfac)3(NITPymbis)2]2,Radical,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7219441.cif,Proper,Biaugmented trigonal prism,0.867,-2.0,1.0502,2015,2015,10.1039/c4ra15074k,"Zhou, S. Y., Li, X., Li, T., Tian, L., Liu, Z. Y. & Wang, X. G. 2015 A series of heterospin complexes based on lanthanides and pyridine biradicals: synthesis, structure and magnetic properties. RSC Advances 5, 17131–17139. (doi:10.1039/c4ra15074k)"
+2015_57,[Dy(hfac)3(L)]2,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4348929.cif,Proper,Square antiprism,0.456,-1.6,1.040128,2015,2015,10.1039/c5qi00087d,"Soussi, K. et al. 2015 Magnetic and photo-physical investigations into DyIII and YbIII complexes involving tetrathiafulvalene ligand. Inorganic Chemistry Frontiers 2, 1105–1117. (doi:10.1039/c5qi00087d)"
+2015_57,[Ln(tta)3(L)]·1.41CH2Cl2,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4348930.cif,Proper,Square antiprism,0.404,-2.9,1.0729205,2015,2015,10.1039/c5qi00087d,"Soussi, K. et al. 2015 Magnetic and photo-physical investigations into DyIII and YbIII complexes involving tetrathiafulvalene ligand. Inorganic Chemistry Frontiers 2, 1105–1117. (doi:10.1039/c5qi00087d)"
+2015_57,[Ln(tta)3(L)]·2CH2Cl2,Diketonate,,Yb3+,Prolate,Kramers,100.0,8.0,4.0,4348931.cif,Proper,Square antiprism,0.358,-2.8,1.070392,2015,2015,10.1039/c5qi00087d,"Soussi, K. et al. 2015 Magnetic and photo-physical investigations into DyIII and YbIII complexes involving tetrathiafulvalene ligand. Inorganic Chemistry Frontiers 2, 1105–1117. (doi:10.1039/c5qi00087d)"
+2015_58,[TbIII(hfac)3(6bpyNO)],Radical,,Tb3+,Oblate,Non-Kramers,100.0,9.0,4.0,4348949.cif,Proper,Spherical capped square antiprism,0.24,-0.5,1.0125125,2015,2015,10.1039/c5qi00098j,"Kanetomo, T., Yoshii, S., Nojiri, H. & Ishida, T. 2015 Single-molecule magnet involving strong exchange coupling in terbium(iii) complex with 2,2′-bipyridin-6-yl tert-butyl nitroxide. Inorganic Chemistry Frontiers 2, 860–866. (doi:10.1039/c5qi00098j)"
+2015_58,[TbIII(hfac)3(6bpyCO)],Diketonate,,Tb3+,Oblate,Non-Kramers,100.0,9.0,4.0,4348951.cif,Proper,Spherical capped square antiprism,0.25,-0.3,1.0075045,2015,2015,10.1039/c5qi00098j,"Kanetomo, T., Yoshii, S., Nojiri, H. & Ishida, T. 2015 Single-molecule magnet involving strong exchange coupling in terbium(iii) complex with 2,2′-bipyridin-6-yl tert-butyl nitroxide. Inorganic Chemistry Frontiers 2, 860–866. (doi:10.1039/c5qi00098j)"
+2015_59,[Dy4L4(H2O)12] (CF3SO3)4·12H2O,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,5.0,7118122.cif,Proper,Spherical tricapped trigonal prism,1.124,6.4,0.842048,2015,2015,10.1039/c5cc06960b,"Wu, J., Zhao, L., Guo, M. & Tang, J. 2015 Constructing supramolecular grids: from 4f square to 3d–4f grid. Chemical Communications 51, 17317–17320. (doi:10.1039/c5cc06960b)"
+2015_59,[Dy4(H2L)4Cl4(H2O)8]Cl8,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,5.0,7118123.cif,Proper,,,,,2015,2015,10.1039/c5cc06960b,"Wu, J., Zhao, L., Guo, M. & Tang, J. 2015 Constructing supramolecular grids: from 4f square to 3d–4f grid. Chemical Communications 51, 17317–17320. (doi:10.1039/c5cc06960b)"
+2016_1,[Dy(H4L’)2OH]·2ClO4·H2O,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,3.0,1457889.cif,Proper,Muffin,2.197,-2.4,1.060288,2016,2016,10.1002/anie.201609539,"Wu, J., Zhao, L., Zhang, L., Li, X.-L., Guo, M., Powell, A. K. & Tang, J. 2016 Macroscopic Hexagonal Tubes of 3 d-4 f Metallocycles. Angewandte Chemie International Edition 55, 15574–15578. (doi:10.1002/anie.201609539)"
+2016_3,[Dy(PLN)2(HPLN)Cl(EtOH)],Diketonate,,Dy3+,Oblate,Kramers,100.0,7.0,5.0,1055828.cif,Proper,Capped trigonal prism,2.215,0.4,0.990008,2016,2016,10.3762/bjnano.7.92,"Lan, Y., Magri, A., Fuhr, O. & Ruben, M. 2016 Phenalenyl-based mononuclear dysprosium complexes. Beilstein Journal of Nanotechnology 7, 995–1009. (doi:10.3762/bjnano.7.92)"
+2016_3,[Dy(PLN)3(HPLN)]·[Dy(PLN)3(EtOH)]·2EtOH,Diketonate,,Dy3+,Oblate,Kramers,100.0,7.0,4.0,1055829.cif,Proper,Others,0.777,,,2016,2016,10.3762/bjnano.7.92,"Lan, Y., Magri, A., Fuhr, O. & Ruben, M. 2016 Phenalenyl-based mononuclear dysprosium complexes. Beilstein Journal of Nanotechnology 7, 995–1009. (doi:10.3762/bjnano.7.92)"
+2016_3,[Dy(PLN)3(H2O)2]·H2O,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,1055830.cif,Proper,Square antiprism,0.876,-2.7,1.0678645,2016,2016,10.3762/bjnano.7.92,"Lan, Y., Magri, A., Fuhr, O. & Ruben, M. 2016 Phenalenyl-based mononuclear dysprosium complexes. Beilstein Journal of Nanotechnology 7, 995–1009. (doi:10.3762/bjnano.7.92)"
+2016_4,Dy(N5)2(CF3SO3)3,Schiff Base,,Dy3+,Oblate,Kramers,100.0,,2.0,1426946.cif,Proper,,,,,2016,2016,10.1039/c6cc01695b,"Jiang, Z.-X., Liu, J.-L., Chen, Y.-C., Liu, J., Jia, J.-H. & Tong, M.-L. 2016 Lanthanoid single-ion magnets with the LnN10 coordination geometry. Chemical Communications 52, 6261–6264. (doi:10.1039/c6cc01695b)"
+2016_4,Er(N5)2(CF3SO3)3,Schiff Base,,Er3+,Prolate,Kramers,100.0,,2.0,1426947.cif,Proper,Others,7.438,,,2016,2016,10.1039/c6cc01695b,"Jiang, Z.-X., Liu, J.-L., Chen, Y.-C., Liu, J., Jia, J.-H. & Tong, M.-L. 2016 Lanthanoid single-ion magnets with the LnN10 coordination geometry. Chemical Communications 52, 6261–6264. (doi:10.1039/c6cc01695b)"
+2016_5,{[DyIII(4-OHpy)2(H2O)3][CoIII(CN)6]} 0.5H2O,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,8.0,,Proper,,,,,2016,2016,10.1039/c6cc05337h,"Chorazy, S., Wang, J. & Ohkoshi, S. 2016 Yellow to greenish-blue colour-tunable photoluminescence and 4f-centered slow magnetic relaxation in a cyanido-bridged DyIII(4-hydroxypyridine)–CoIII layered material. Chemical Communications 52, 10795–10798. (doi:10.1039/c6cc05337h)"
+2016_5,{[DyIII(4-OHpy)2(H2O)3][CoIII(CN)6]} 0.5H2O,Other Families,0.0,Dy3+,Oblate,Kramers,18.0,8.0,8.0,,Isostructural,,,,,2016,2016,10.1039/c6cc05337h,"Chorazy, S., Wang, J. & Ohkoshi, S. 2016 Yellow to greenish-blue colour-tunable photoluminescence and 4f-centered slow magnetic relaxation in a cyanido-bridged DyIII(4-hydroxypyridine)–CoIII layered material. Chemical Communications 52, 10795–10798. (doi:10.1039/c6cc05337h)"
+2016_6,{[DyIII(3-OHpy)2(H2O)4][CoIII(CN)6]}·H2O,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,8.0,1442761.cif,Proper,Triangular dodecahedron,0.596,1.0,0.97505,2016,2016,10.1002/chem.201601244,"Chorazy, S., Rams, M., Nakabayashi, K., Sieklucka, B. & Ohkoshi, S. 2016 White Light Emissive DyIII Single-Molecule Magnets Sensitized by Diamagnetic [CoIII(CN)6]3− Linkers. Chemistry - A European Journal 22, 7371–7375. (doi:10.1002/chem.201601244)"
+2016_7,[Sm(hfac)3(NITmNO2)2],Radical,,Sm3+,Prolate,Kramers,100.0,8.0,5.0,,,,,,,2016,2016,10.14102/j.cnki.0254-5861.2011-1071,"Li, W.-J. et al. 2016 Syntheses, Crystal Structures and Magnetic Properties of Two Nitrophenyl Substituted Nitronyl Nitroxide Radical-lanthanide Complexes. Chinese Journal of Structural Chemistry 35, 1787–1796. (doi:10.14102/j.cnki.0254-5861.2011-1071)"
+2016_7,[Tb(hfac)3(NITmNO2)2],Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,,,,,,,2016,2016,10.14102/j.cnki.0254-5861.2011-1071,"Li, W.-J. et al. 2016 Syntheses, Crystal Structures and Magnetic Properties of Two Nitrophenyl Substituted Nitronyl Nitroxide Radical-lanthanide Complexes. Chinese Journal of Structural Chemistry 35, 1787–1796. (doi:10.14102/j.cnki.0254-5861.2011-1071)"
+2016_8,Na[Tb(EDTA)(H2O)3]n·5H2O,Other Families,100000.0,Tb3+,Oblate,Non-Kramers,100.0,9.0,4.0,7236233.cif,Proper,Spherical capped square antiprism,0.71,0.0,1.0,2016,2016,10.1039/c6ra09831b,"Holmberg, R. J., Korobkov, I. & Murugesu, M. 2016 Enchaining EDTA-chelated lanthanide molecular magnets into ordered 1D networks. RSC Advances 6, 72510–72518. (doi:10.1039/c6ra09831b)"
+2016_8,Na[Dy(EDTA)(H2O)3]n·5H2O,Other Families,100000.0,Dy3+,Oblate,Kramers,100.0,9.0,4.0,7236231.cif,Proper,Spherical capped square antiprism,0.726,0.4,0.990008,2016,2016,10.1039/c6ra09831b,"Holmberg, R. J., Korobkov, I. & Murugesu, M. 2016 Enchaining EDTA-chelated lanthanide molecular magnets into ordered 1D networks. RSC Advances 6, 72510–72518. (doi:10.1039/c6ra09831b)"
+2016_9,[Sm2(DBM)6(L)],Mixed Ligands,11000.0,Sm3+,Prolate,Kramers,100.0,8.0,5.0,7225098.cif,Proper,Square antiprism,1.008,-1.5,1.0376125,2016,2016,10.1039/c6ce00354k,"Sun, O., Chen, P., Li, H.-F., Gao, T., Sun, W.-B., Li, G.-M. & Yan, P.-F. 2016 A series of dinuclear lanthanide(iii) complexes constructed from Schiff base and β-diketonate ligands: synthesis, structure, luminescence and SMM behavior. CrystEngComm 18, 4627–4635. (doi:10.1039/c6ce00354k)"
+2016_9,[Gd2(DBM)6(L)],Mixed Ligands,11000.0,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,Proper,,,,,2016,2016,10.1039/c6ce00354k,"Sun, O., Chen, P., Li, H.-F., Gao, T., Sun, W.-B., Li, G.-M. & Yan, P.-F. 2016 A series of dinuclear lanthanide(iii) complexes constructed from Schiff base and β-diketonate ligands: synthesis, structure, luminescence and SMM behavior. CrystEngComm 18, 4627–4635. (doi:10.1039/c6ce00354k)"
+2016_9,[Dy2(DBM)6(L)],Mixed Ligands,11000.0,Dy3+,Oblate,Kramers,100.0,8.0,5.0,7225099.cif,Proper,Square antiprism,0.889,-1.9,1.0476805,2016,2016,10.1039/c6ce00354k,"Sun, O., Chen, P., Li, H.-F., Gao, T., Sun, W.-B., Li, G.-M. & Yan, P.-F. 2016 A series of dinuclear lanthanide(iii) complexes constructed from Schiff base and β-diketonate ligands: synthesis, structure, luminescence and SMM behavior. CrystEngComm 18, 4627–4635. (doi:10.1039/c6ce00354k)"
+2016_9,[Yb2(DBM)6(L)],Mixed Ligands,11000.0,Yb3+,Prolate,Kramers,100.0,8.0,5.0,7225096.cif,Proper,Square antiprism,0.831,-1.9,1.0476805,2016,2016,10.1039/c6ce00354k,"Sun, O., Chen, P., Li, H.-F., Gao, T., Sun, W.-B., Li, G.-M. & Yan, P.-F. 2016 A series of dinuclear lanthanide(iii) complexes constructed from Schiff base and β-diketonate ligands: synthesis, structure, luminescence and SMM behavior. CrystEngComm 18, 4627–4635. (doi:10.1039/c6ce00354k)"
+2016_10,[Tb2(C5O5)3(H2O)12]·2H2O,Other Families,0.0,Tb3+,Oblate,Non-Kramers,100.0,8.0,8.0,7226162.cif,Proper,Biaugmented trigonal prism,9.903,-1.3,1.0325845,2016,2016,10.1039/c6ce00308g,"Jia, Y.-Q., Feng, S.-S., Shen, M.-L. & Lu, L.-P. 2016 Construction of multifunctional materials based on Tb3+and croconic acid, directed by K+cations: synthesis, structures, fluorescence, magnetic and ferroelectric behaviors. CrystEngComm 18, 5344–5352. (doi:10.1039/c6ce00308g)"
+2016_10,[KTb(C5O5)2(H2O)6]·1.5H2O,Other Families,0.0,Tb3+,Oblate,Non-Kramers,100.0,8.0,8.0,7226163.cif,Proper,Square antiprism,0.223,-3.3,1.0830445,2016,2016,10.1039/c6ce00308g,"Jia, Y.-Q., Feng, S.-S., Shen, M.-L. & Lu, L.-P. 2016 Construction of multifunctional materials based on Tb3+and croconic acid, directed by K+cations: synthesis, structures, fluorescence, magnetic and ferroelectric behaviors. CrystEngComm 18, 5344–5352. (doi:10.1039/c6ce00308g)"
+2016_10,[Tb(C5O5)(Hdpa)(H2O)5]·H2O,Other Families,100000.0,Tb3+,Oblate,Non-Kramers,100.0,8.0,7.0,7226164.cif,Proper,Square antiprism,0.521,-2.8,1.070392,2016,2016,10.1039/c6ce00308g,"Jia, Y.-Q., Feng, S.-S., Shen, M.-L. & Lu, L.-P. 2016 Construction of multifunctional materials based on Tb3+and croconic acid, directed by K+cations: synthesis, structures, fluorescence, magnetic and ferroelectric behaviors. CrystEngComm 18, 5344–5352. (doi:10.1039/c6ce00308g)"
+2016_10,[KTb(C5O5)2(H2O)5]·2H2O,Other Families,0.0,Tb3+,Oblate,Non-Kramers,100.0,9.0,7.0,7226165.cif,Proper,Spherical capped square antiprism,0.972,-1.2,1.030072,2016,2016,10.1039/c6ce00308g,"Jia, Y.-Q., Feng, S.-S., Shen, M.-L. & Lu, L.-P. 2016 Construction of multifunctional materials based on Tb3+and croconic acid, directed by K+cations: synthesis, structures, fluorescence, magnetic and ferroelectric behaviors. CrystEngComm 18, 5344–5352. (doi:10.1039/c6ce00308g)"
+2016_11,[Gd2(hfac)6(IPhIN)(H2O)2],Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,Proper,,,,,2016,2016,10.1039/c5dt04469c,"Reis, S. G. et al. 2016 First coordination compounds based on a bis(imino nitroxide) biradical and 4f metal ions: synthesis, crystal structures and magnetic properties. Dalton Transactions 45, 2936–2944. (doi:10.1039/c5dt04469c)"
+2016_11,[Dy2(hfac)6(IPhIN)(H2O)2],Radical,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,7037765.cif,Proper,Square antiprism,0.631,-1.0,1.02505,2016,2016,10.1039/c5dt04469c,"Reis, S. G. et al. 2016 First coordination compounds based on a bis(imino nitroxide) biradical and 4f metal ions: synthesis, crystal structures and magnetic properties. Dalton Transactions 45, 2936–2944. (doi:10.1039/c5dt04469c)"
+2016_11,[Tb(hfac)3(IPhIN)(H2O)],Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,7037766.cif,Proper,Square antiprism,1.175,-3.7,1.0931845,2016,2016,10.1039/c5dt04469c,"Reis, S. G. et al. 2016 First coordination compounds based on a bis(imino nitroxide) biradical and 4f metal ions: synthesis, crystal structures and magnetic properties. Dalton Transactions 45, 2936–2944. (doi:10.1039/c5dt04469c)"
+2016_11,[Gd(hfac)3(IPhIN)(H2O)],Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,Isostructural,,,,,2016,2016,10.1039/c5dt04469c,"Reis, S. G. et al. 2016 First coordination compounds based on a bis(imino nitroxide) biradical and 4f metal ions: synthesis, crystal structures and magnetic properties. Dalton Transactions 45, 2936–2944. (doi:10.1039/c5dt04469c)"
+2016_11,[Dy(hfac)3(IPhIN)(H2O)],Radical,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,7037767.cif,Proper,Triangular dodecahedron,0.835,0.4,0.990008,2016,2016,10.1039/c5dt04469c,"Reis, S. G. et al. 2016 First coordination compounds based on a bis(imino nitroxide) biradical and 4f metal ions: synthesis, crystal structures and magnetic properties. Dalton Transactions 45, 2936–2944. (doi:10.1039/c5dt04469c)"
+2016_12,[Dy2(BTB)3(CH3OH)4]·3CH3OH,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,7038052.cif,Proper,Square antiprism,0.444,-4.2,1.105882,2016,2016,10.1039/c5dt04608d,"Li, H., Chen, P., Sun, W., Zhang, L. & Yan, P. 2016 Solvent triggered structural diversity of triple-stranded helicates: single molecular magnets. Dalton Transactions 45, 3175–3181. (doi:10.1039/c5dt04608d)"
+2016_12,[Dy2(BTB)3(DME)2],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7038053.cif,Proper,Triangular dodecahedron,0.418,-0.1,1.0025005,2016,2016,10.1039/c5dt04608d,"Li, H., Chen, P., Sun, W., Zhang, L. & Yan, P. 2016 Solvent triggered structural diversity of triple-stranded helicates: single molecular magnets. Dalton Transactions 45, 3175–3181. (doi:10.1039/c5dt04608d)"
+2016_12,[Dy2(BTB)3(DOA)(H2O)2]·4.5DOA,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,7038054.cif,Proper,Square antiprism,0.423,-1.9,1.0476805,2016,2016,10.1039/c5dt04608d,"Li, H., Chen, P., Sun, W., Zhang, L. & Yan, P. 2016 Solvent triggered structural diversity of triple-stranded helicates: single molecular magnets. Dalton Transactions 45, 3175–3181. (doi:10.1039/c5dt04608d)"
+2016_13,[CoIIIDyIIIL1(μ-OAc)2(NO3)2],TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,7038835.cif,Proper,Muffin,2.764,-1.1,1.0275605,2016,2016,10.1039/c6dt00848h,"Hazra, S., Titiš, J., Valigura, D., Boča, R. & Mohanta, S. 2016 Bis-phenoxido and bis-acetato bridged heteronuclear {CoIIIDyIII} single molecule magnets with two slow relaxation branches. Dalton Transactions 45, 7510–7520. (doi:10.1039/c6dt00848h)"
+2016_13,[CoIIIDyIIIL2(μ-OAc)2(NO3)2],TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,7038836.cif,Proper,Muffin,2.79,-4.0,1.1008,2016,2016,10.1039/c6dt00848h,"Hazra, S., Titiš, J., Valigura, D., Boča, R. & Mohanta, S. 2016 Bis-phenoxido and bis-acetato bridged heteronuclear {CoIIIDyIII} single molecule magnets with two slow relaxation branches. Dalton Transactions 45, 7510–7520. (doi:10.1039/c6dt00848h)"
+2016_14,[CoIII2 Gd(L)2(μ-O2CCH3)2(H2O)3]·NO3·MeOH·H2O,TM near Ln,,Gd3+,Isotropic,Kramers,100.0,9.0,3.0,,Proper,,,,,2016,2016,10.1039/c5dt03871e,"Goura, J., Brambleby, J., Topping, C. V., Goddard, P. A., Suriya Narayanan, R., Bar, A. K. & Chandrasekhar, V. 2016 Heterometallic trinuclear {CoIII2LnIII} (Ln = Gd, Tb, Ho and Er) complexes in a bent geometry. Field-induced single-ion magnetic behavior of the ErIII and TbIII analogues. Dalton Transactions 45, 9235–9249. (doi:10.1039/c5dt03871e)"
+2016_14,[CoIII2 Tb(L)2(μ-O2CCH3)2(H2O)3]·NO3·2H2O,TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,9.0,3.0,7039108.cif,Proper,Spherical tricapped trigonal prism,1.823,3.9,0.9032605,2016,2016,10.1039/c5dt03871e,"Goura, J., Brambleby, J., Topping, C. V., Goddard, P. A., Suriya Narayanan, R., Bar, A. K. & Chandrasekhar, V. 2016 Heterometallic trinuclear {CoIII2LnIII} (Ln = Gd, Tb, Ho and Er) complexes in a bent geometry. Field-induced single-ion magnetic behavior of the ErIII and TbIII analogues. Dalton Transactions 45, 9235–9249. (doi:10.1039/c5dt03871e)"
+2016_14,[CoIII2 Ho(L)2(μ-O2CCH3)2(H2O)3]·NO3·MeOH·H2O,TM near Ln,,Ho3+,Oblate,Non-Kramers,100.0,9.0,3.0,7039109.cif,Proper,Spherical tricapped trigonal prism,1.888,3.6,0.910648,2016,2016,10.1039/c5dt03871e,"Goura, J., Brambleby, J., Topping, C. V., Goddard, P. A., Suriya Narayanan, R., Bar, A. K. & Chandrasekhar, V. 2016 Heterometallic trinuclear {CoIII2LnIII} (Ln = Gd, Tb, Ho and Er) complexes in a bent geometry. Field-induced single-ion magnetic behavior of the ErIII and TbIII analogues. Dalton Transactions 45, 9235–9249. (doi:10.1039/c5dt03871e)"
+2016_14,[CoIII2 Er(L)2(μ-O2CCH3)2(H2O)3]·NO3·MeOH·H2O,TM near Ln,,Er3+,Prolate,Kramers,100.0,9.0,3.0,7039110.cif,Proper,Spherical tricapped trigonal prism,1.787,3.4,0.915578,2016,2016,10.1039/c5dt03871e,"Goura, J., Brambleby, J., Topping, C. V., Goddard, P. A., Suriya Narayanan, R., Bar, A. K. & Chandrasekhar, V. 2016 Heterometallic trinuclear {CoIII2LnIII} (Ln = Gd, Tb, Ho and Er) complexes in a bent geometry. Field-induced single-ion magnetic behavior of the ErIII and TbIII analogues. Dalton Transactions 45, 9235–9249. (doi:10.1039/c5dt03871e)"
+2016_15,[Tb(β-Mo8O26)2]5−,POM,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,7040469.cif,Proper,Square antiprism,0.304,-3.1,1.0779805,2016,2016,10.1039/c6dt02258h,"Baldoví, J. J. et al. 2016 Single ion magnets based on lanthanoid polyoxomolybdate complexes. Dalton Transactions 45, 16653–16660. (doi:10.1039/c6dt02258h)"
+2016_15,[Dy(β-Mo8O26)2]5−,POM,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,7040470.cif,Proper,Square antiprism,0.17,-2.4,1.060288,2016,2016,10.1039/c6dt02258h,"Baldoví, J. J. et al. 2016 Single ion magnets based on lanthanoid polyoxomolybdate complexes. Dalton Transactions 45, 16653–16660. (doi:10.1039/c6dt02258h)"
+2016_15,[Ho(β-Mo8O26)2]5−,POM,,Ho3+,Oblate,Non-Kramers,100.0,8.0,2.0,7040471.cif,Proper,Square antiprism,0.155,-2.7,1.0678645,2016,2016,10.1039/c6dt02258h,"Baldoví, J. J. et al. 2016 Single ion magnets based on lanthanoid polyoxomolybdate complexes. Dalton Transactions 45, 16653–16660. (doi:10.1039/c6dt02258h)"
+2016_15,[Er(β-Mo8O26)2]5−,POM,,Er3+,Prolate,Kramers,100.0,8.0,2.0,7040472.cif,Proper,Square antiprism,0.155,-2.7,1.0678645,2016,2016,10.1039/c6dt02258h,"Baldoví, J. J. et al. 2016 Single ion magnets based on lanthanoid polyoxomolybdate complexes. Dalton Transactions 45, 16653–16660. (doi:10.1039/c6dt02258h)"
+2016_15,[Tm(β-Mo8O26)2]5−,POM,,Tm3+,Prolate,Non-Kramers,100.0,8.0,2.0,7040473.cif,Proper,Square antiprism,0.111,-2.0,1.0502,2016,2016,10.1039/c6dt02258h,"Baldoví, J. J. et al. 2016 Single ion magnets based on lanthanoid polyoxomolybdate complexes. Dalton Transactions 45, 16653–16660. (doi:10.1039/c6dt02258h)"
+2016_15,[Yb(β-Mo8O26)2]5−,POM,,Yb3+,Prolate,Kramers,100.0,8.0,2.0,7040474.cif,Proper,Square antiprism,0.124,-2.3,1.0577645,2016,2016,10.1039/c6dt02258h,"Baldoví, J. J. et al. 2016 Single ion magnets based on lanthanoid polyoxomolybdate complexes. Dalton Transactions 45, 16653–16660. (doi:10.1039/c6dt02258h)"
+2016_15,[Tb{Mo5O13(OMe)4NNC6H4-p-NO2}2]3−,POM,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,7040475.cif,Proper,Square antiprism,0.43,-3.4,1.085578,2016,2016,10.1039/c6dt02258h,"Baldoví, J. J. et al. 2016 Single ion magnets based on lanthanoid polyoxomolybdate complexes. Dalton Transactions 45, 16653–16660. (doi:10.1039/c6dt02258h)"
+2016_15,[Dy{Mo5O13(OMe)4NNC6H4-p-NO2}2]3−,POM,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,7040476.cif,Proper,Square antiprism,0.425,-3.4,1.085578,2016,2016,10.1039/c6dt02258h,"Baldoví, J. J. et al. 2016 Single ion magnets based on lanthanoid polyoxomolybdate complexes. Dalton Transactions 45, 16653–16660. (doi:10.1039/c6dt02258h)"
+2016_15,[Ho{Mo5O13(OMe)4NNC6H4-p-NO2}2]3−,POM,,Ho3+,Oblate,Non-Kramers,100.0,8.0,2.0,7040477.cif,Proper,Square antiprism,0.52,-4.6,1.116058,2016,2016,10.1039/c6dt02258h,"Baldoví, J. J. et al. 2016 Single ion magnets based on lanthanoid polyoxomolybdate complexes. Dalton Transactions 45, 16653–16660. (doi:10.1039/c6dt02258h)"
+2016_15,[Er{Mo5O13(OMe)4NNC6H4-p-NO2}2]3−,POM,,Er3+,Prolate,Kramers,100.0,8.0,2.0,7040478.cif,Proper,Square antiprism,0.408,-4.2,1.105882,2016,2016,10.1039/c6dt02258h,"Baldoví, J. J. et al. 2016 Single ion magnets based on lanthanoid polyoxomolybdate complexes. Dalton Transactions 45, 16653–16660. (doi:10.1039/c6dt02258h)"
+2016_15,[Yb{Mo5O13(OMe)4NNC6H4-p-NO2}2]3−,POM,,Yb3+,Prolate,Kramers,100.0,8.0,2.0,7040479.cif,Proper,Square antiprism,0.452,-4.2,1.105882,2016,2016,10.1039/c6dt02258h,"Baldoví, J. J. et al. 2016 Single ion magnets based on lanthanoid polyoxomolybdate complexes. Dalton Transactions 45, 16653–16660. (doi:10.1039/c6dt02258h)"
+2016_15,[Nd{Mo5O13(OMe)4NNC6H4-p-NO2}2]3−,POM,,Nd3+,Oblate,Kramers,100.0,8.0,2.0,,Isostructural,,,,,2016,2016,10.1039/c6dt02258h,"Baldoví, J. J. et al. 2016 Single ion magnets based on lanthanoid polyoxomolybdate complexes. Dalton Transactions 45, 16653–16660. (doi:10.1039/c6dt02258h)"
+2016_16,[{Dy(ntbi)(NO3)3}2·3CH3OH,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,10.0,4.0,1413871.cif,Proper,Others,3.655,,,2016,2016,10.1002/ejic.201600152,"Goswami, S., Biswas, S., Tomar, K. & Konar, S. 2016 Tuning the Magnetoluminescence Behavior of Lanthanide Complexes Having Sphenocorona and Cubic Coordination Geometries. European Journal of Inorganic Chemistry 2016, 2774–2782. (doi:10.1002/ejic.201600152)"
+2016_16,[{Dy(ntbi)(NO3)3}2·3CH3OH,Other Families,0.0,Dy3+,Oblate,Kramers,9.09090909090909,10.0,4.0,,Isostructural,,,,,2016,2016,10.1002/ejic.201600152,"Goswami, S., Biswas, S., Tomar, K. & Konar, S. 2016 Tuning the Magnetoluminescence Behavior of Lanthanide Complexes Having Sphenocorona and Cubic Coordination Geometries. European Journal of Inorganic Chemistry 2016, 2774–2782. (doi:10.1002/ejic.201600152)"
+2016_16,[{Dy(ntbi)2}5·15Cl·xH2O,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,1413872.cif,Proper,Others,0.954,,,2016,2016,10.1002/ejic.201600152,"Goswami, S., Biswas, S., Tomar, K. & Konar, S. 2016 Tuning the Magnetoluminescence Behavior of Lanthanide Complexes Having Sphenocorona and Cubic Coordination Geometries. European Journal of Inorganic Chemistry 2016, 2774–2782. (doi:10.1002/ejic.201600152)"
+2016_16,[{Ho(ntbi)(NO3)3}2·3CH3OH,Other Families,,Ho3+,Oblate,Non-Kramers,100.0,10.0,4.0,1413873.cif,Proper,Others,3.567,,,2016,2016,10.1002/ejic.201600152,"Goswami, S., Biswas, S., Tomar, K. & Konar, S. 2016 Tuning the Magnetoluminescence Behavior of Lanthanide Complexes Having Sphenocorona and Cubic Coordination Geometries. European Journal of Inorganic Chemistry 2016, 2774–2782. (doi:10.1002/ejic.201600152)"
+2016_16,[{Tb(ntbi)2}5·15Cl·xH2O,Other Families,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,1413874.cif,Proper,Others,0.98,,,2016,2016,10.1002/ejic.201600152,"Goswami, S., Biswas, S., Tomar, K. & Konar, S. 2016 Tuning the Magnetoluminescence Behavior of Lanthanide Complexes Having Sphenocorona and Cubic Coordination Geometries. European Journal of Inorganic Chemistry 2016, 2774–2782. (doi:10.1002/ejic.201600152)"
+2016_17,[LDyCl2(THF)2],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,6.0,5.0,1475177.cif,Proper,Octahedron,1.125,-3.5,1.0881125,2016,2016,10.1002/ejic.201600488,"Klementyeva, S. V., Afonin, M. Y., Bogomyakov, A. S., Gamer, M. T., Roesky, P. W. & Konchenko, S. N. 2016 Mono- and Dinuclear Rare-Earth Chlorides Ligated by a Mesityl-Substituted β-Diketiminate. European Journal of Inorganic Chemistry 2016, 3666–3672. (doi:10.1002/ejic.201600488)"
+2016_18,[Zn(NO3)LDy(NO3)2(H2O)],TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,4.0,,Isostructural,,,,,2016,2016,10.1039/c6ra24115h,"Long, J. et al. 2016 Study of the influence of magnetic dilution over relaxation processes in a Zn/Dy single-ion magnet by correlation between luminescence and magnetism. RSC Advances 6, 108810–108818. (doi:10.1039/c6ra24115h)"
+2016_18,[Zn(NO3)LDy(NO3)2(H2O)],TM near Ln,,Dy3+,Oblate,Kramers,5.0,9.0,4.0,,Isostructural,,,,,2016,2016,10.1039/c6ra24115h,"Long, J. et al. 2016 Study of the influence of magnetic dilution over relaxation processes in a Zn/Dy single-ion magnet by correlation between luminescence and magnetism. RSC Advances 6, 108810–108818. (doi:10.1039/c6ra24115h)"
+2016_19,[Dy2(bzhdep-2H) (NO3)4(DMF)4],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,5.0,4347705.cif,Proper,Muffin,2.053,-1.6,1.040128,2016,2016,10.1021/acs.inorgchem.6b00500,"Huang, W. et al. 2016 Metallogrid Single-Molecule Magnet: Solvent-Induced Nuclearity Transformation and Magnetic Hysteresis at 16 K. Inorganic Chemistry 55, 5476–5484. (doi:10.1021/acs.inorgchem.6b00500)"
+2016_19,[Dy4(bzhdep-2H)4(H2O)4(NO3)4]·6CH3OH·6H2O,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,4.0,4347706.cif,Proper,Spherical capped square antiprism,1.103,-2.2,1.055242,2016,2016,10.1021/acs.inorgchem.6b00500,"Huang, W. et al. 2016 Metallogrid Single-Molecule Magnet: Solvent-Induced Nuclearity Transformation and Magnetic Hysteresis at 16 K. Inorganic Chemistry 55, 5476–5484. (doi:10.1021/acs.inorgchem.6b00500)"
+2016_19,[Dy0.35Y3.65(bzhdep-2H)4(H2O)4(NO3)4]·6CH3OH·6H2O,Other Families,0.0,Dy3+,Oblate,Kramers,8.75,9.0,4.0,,Isostructural,,,,,2016,2016,10.1021/acs.inorgchem.6b00500,"Huang, W. et al. 2016 Metallogrid Single-Molecule Magnet: Solvent-Induced Nuclearity Transformation and Magnetic Hysteresis at 16 K. Inorganic Chemistry 55, 5476–5484. (doi:10.1021/acs.inorgchem.6b00500)"
+2016_20,[Dy4(H2L′)4Zn4(SCN)4],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,3.0,4347729.cif,Proper,Spherical capped square antiprism,1.622,1.5,0.9626125,2016,2016,10.1021/acs.inorgchem.6b00529,"Wu, J., Zhao, L., Zhang, L., Li, X.-L., Guo, M. & Tang, J. 2016 Metallosupramolecular Coordination Complexes: The Design of Heterometallic 3d–4f Gridlike Structures. Inorganic Chemistry 55, 5514–5519. (doi:10.1021/acs.inorgchem.6b00529)"
+2016_21,[Gd2(hfac)6(MeTrzNIT)(H2O)2]·1/2CH2Cl2,Radical,,Gd3+,Isotropic,Kramers,100.0,9.0,5.0,,Proper,,,,,2016,2016,10.1039/c5ra21991d,"Li, T., Zhou, S. Y., Li, X., Tian, L., Liao, D. Z., Liu, Z. Y. & Guo, J. H. 2016 Modulating spin dynamics of LnIII-radical complexes by using different coligands. RSC Advances 6, 3058–3067. (doi:10.1039/c5ra21991d)"
+2016_21,[Tb2(hfac)6(MeTrzNIT)(H2O)2]·1/2CH2Cl2,Radical,,Tb3+,Oblate,Non-Kramers,100.0,9.0,5.0,7223577.cif,Proper,Spherical tricapped trigonal prism,0.634,5.800000000000001,0.8566819999999999,2016,2016,10.1039/c5ra21991d,"Li, T., Zhou, S. Y., Li, X., Tian, L., Liao, D. Z., Liu, Z. Y. & Guo, J. H. 2016 Modulating spin dynamics of LnIII-radical complexes by using different coligands. RSC Advances 6, 3058–3067. (doi:10.1039/c5ra21991d)"
+2016_21,[Dy2(hfac)6(MeTrzNIT)(H2O)2]·1/2CH2Cl2,Radical,,Dy3+,Oblate,Kramers,100.0,9.0,5.0,7223575.cif,Proper,Spherical tricapped trigonal prism,0.651,5.9,0.8542405,2016,2016,10.1039/c5ra21991d,"Li, T., Zhou, S. Y., Li, X., Tian, L., Liao, D. Z., Liu, Z. Y. & Guo, J. H. 2016 Modulating spin dynamics of LnIII-radical complexes by using different coligands. RSC Advances 6, 3058–3067. (doi:10.1039/c5ra21991d)"
+2016_21,[Gd(Phtfac)3(MeTrzNIT)]2·C7H14·3H2O,Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,4.0,,Proper,,,,,2016,2016,10.1039/c5ra21991d,"Li, T., Zhou, S. Y., Li, X., Tian, L., Liao, D. Z., Liu, Z. Y. & Guo, J. H. 2016 Modulating spin dynamics of LnIII-radical complexes by using different coligands. RSC Advances 6, 3058–3067. (doi:10.1039/c5ra21991d)"
+2016_21,[Tb(Phtfac)3(MeTrzNIT)]2·C7H14·3H2O,Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,,Isostructural,,,,,2016,2016,10.1039/c5ra21991d,"Li, T., Zhou, S. Y., Li, X., Tian, L., Liao, D. Z., Liu, Z. Y. & Guo, J. H. 2016 Modulating spin dynamics of LnIII-radical complexes by using different coligands. RSC Advances 6, 3058–3067. (doi:10.1039/c5ra21991d)"
+2016_21,[Dy(Phtfac)3(MeTrzNIT)]2·C7H14·3H2O,Radical,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,Isostructural,,,,,2016,2016,10.1039/c5ra21991d,"Li, T., Zhou, S. Y., Li, X., Tian, L., Liao, D. Z., Liu, Z. Y. & Guo, J. H. 2016 Modulating spin dynamics of LnIII-radical complexes by using different coligands. RSC Advances 6, 3058–3067. (doi:10.1039/c5ra21991d)"
+2016_22,[Gd2(hfac)6(H2O)2(dppnTEMPO)],Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,Proper,,,,,2016,2016,10.1021/acs.inorgchem.6b01616,"Reis, S. G. et al. 2016 Binuclear Lanthanide-Radical Complexes Featuring Two Centers with Different Magnetic and Luminescence Properties. Inorganic Chemistry 55, 11676–11684. (doi:10.1021/acs.inorgchem.6b01616)"
+2016_22,[Tb2(hfac)6(H2O)2(dppnTEMPO)],Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,4348782.cif,Proper,Triangular dodecahedron,0.962,0.0,1.0,2016,2016,10.1021/acs.inorgchem.6b01616,"Reis, S. G. et al. 2016 Binuclear Lanthanide-Radical Complexes Featuring Two Centers with Different Magnetic and Luminescence Properties. Inorganic Chemistry 55, 11676–11684. (doi:10.1021/acs.inorgchem.6b01616)"
+2016_22,[Dy2(hfac)6(H2O)2(dppnTEMPO)],Radical,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,4348780.cif,Proper,Triangular dodecahedron,0.635,0.4,0.990008,2016,2016,10.1021/acs.inorgchem.6b01616,"Reis, S. G. et al. 2016 Binuclear Lanthanide-Radical Complexes Featuring Two Centers with Different Magnetic and Luminescence Properties. Inorganic Chemistry 55, 11676–11684. (doi:10.1021/acs.inorgchem.6b01616)"
+2016_23,DyCdY,LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,4349039.cif,Proper,Others,3.064,,,2016,2016,10.1021/acs.inorgchem.6b01870,"Horii, Y., Katoh, K., Cosquer, G., Breedlove, B. K. & Yamashita, M. 2016 Weak DyIII–DyIII Interactions in DyIII–Phthalocyaninato Multiple-Decker Single-Molecule Magnets Effectively Suppress Magnetic Relaxation. Inorganic Chemistry 55, 11782–11790. (doi:10.1021/acs.inorgchem.6b01870)"
+2016_23,DyCdCdDy,LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,4349036.cif,Proper,Others,2.767,,,2016,2016,10.1021/acs.inorgchem.6b01870,"Horii, Y., Katoh, K., Cosquer, G., Breedlove, B. K. & Yamashita, M. 2016 Weak DyIII–DyIII Interactions in DyIII–Phthalocyaninato Multiple-Decker Single-Molecule Magnets Effectively Suppress Magnetic Relaxation. Inorganic Chemistry 55, 11782–11790. (doi:10.1021/acs.inorgchem.6b01870)"
+2016_24,[(thf)5Dy((OC)W(CO)2Cp)3]·thf,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,8.0,4349035.cif,Proper,Square antiprism,0.42,-2.9,1.0729205,2016,2016,10.1039/c5qi00224a,"Dickie, C. M. & Nippe, M. 2016 Magnetization dynamics of a heterometallic Dy-isocarbonyl complex. Inorganic Chemistry Frontiers 3, 97–103. (doi:10.1039/c5qi00224a)"
+2016_24,[(thf)5Dy0.08Y0.92((OC)W(CO)2Cp)3]·thf,Other Families,0.0,Dy3+,Oblate,Kramers,7.69230769230769,8.0,8.0,,Isostructural,,,,,2016,2016,10.1039/c5qi00224a,"Dickie, C. M. & Nippe, M. 2016 Magnetization dynamics of a heterometallic Dy-isocarbonyl complex. Inorganic Chemistry Frontiers 3, 97–103. (doi:10.1039/c5qi00224a)"
+2016_25,[Gd(hfac)3(NITPhiPr)2],Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,Proper,,,,,2016,2016,10.1016/j.inoche.2012.10.006,"Gao, Y., Wang, Y., Hu, P., Yang, M., Ma, Y., Wang, Q., Li, L. & Liao, D. 2013 A novel nitronyl nitroxide radical and its Gd(III), Tb(III), Dy(III) complexes: Synthesis, structure and magnetic properties. Inorganic Chemistry Communications 27, 31–35. (doi:10.1016/j.inoche.2012.10.006)"
+2016_25,[Tb(hfac)3(NITPhiPr)2],Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,878238.cif,Proper,Triangular dodecahedron,0.152,-0.5,1.0125125,2016,2016,10.1016/j.inoche.2012.10.006,"Gao, Y., Wang, Y., Hu, P., Yang, M., Ma, Y., Wang, Q., Li, L. & Liao, D. 2013 A novel nitronyl nitroxide radical and its Gd(III), Tb(III), Dy(III) complexes: Synthesis, structure and magnetic properties. Inorganic Chemistry Communications 27, 31–35. (doi:10.1016/j.inoche.2012.10.006)"
+2016_25,[Dy(hfac)3(NITPhiPr)2],Radical,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,878237.cif,Proper,Triangular dodecahedron,0.144,-0.3,1.0075045,2016,2016,10.1016/j.inoche.2012.10.006,"Gao, Y., Wang, Y., Hu, P., Yang, M., Ma, Y., Wang, Q., Li, L. & Liao, D. 2013 A novel nitronyl nitroxide radical and its Gd(III), Tb(III), Dy(III) complexes: Synthesis, structure and magnetic properties. Inorganic Chemistry Communications 27, 31–35. (doi:10.1016/j.inoche.2012.10.006)"
+2016_26,[Tb2(TCT)2(H2O)6]·6H2O,Other Families,100000.0,Tb3+,Oblate,Non-Kramers,100.0,9.0,5.0,,,,,,,2016,2016,10.1016/j.ica.2016.08.020,"Zhang, J.-W., Jiang, Y., Xie, Y.-R., Chu, J. & Liu, B.-Q. 2016 Syntheses, structures, photoluminescence, and magnetism of a series of discrete heavy lanthanide complexes based on a tricarboxylic acid. Inorganica Chimica Acta 453, 257–262. (doi:10.1016/j.ica.2016.08.020)"
+2016_26,[Dy2(TCT)2(H2O)6]·6H2O,Other Families,100000.0,Dy3+,Oblate,Kramers,100.0,9.0,5.0,,,,,,,2016,2016,10.1016/j.ica.2016.08.020,"Zhang, J.-W., Jiang, Y., Xie, Y.-R., Chu, J. & Liu, B.-Q. 2016 Syntheses, structures, photoluminescence, and magnetism of a series of discrete heavy lanthanide complexes based on a tricarboxylic acid. Inorganica Chimica Acta 453, 257–262. (doi:10.1016/j.ica.2016.08.020)"
+2016_26,[Ho2(TCT)2(H2O)6]·6H2O,Other Families,100000.0,Ho3+,Oblate,Non-Kramers,100.0,9.0,5.0,,,,,,,2016,2016,10.1016/j.ica.2016.08.020,"Zhang, J.-W., Jiang, Y., Xie, Y.-R., Chu, J. & Liu, B.-Q. 2016 Syntheses, structures, photoluminescence, and magnetism of a series of discrete heavy lanthanide complexes based on a tricarboxylic acid. Inorganica Chimica Acta 453, 257–262. (doi:10.1016/j.ica.2016.08.020)"
+2016_26,[Er2(TCT)2(H2O)6]·6H2O,Other Families,100000.0,Er3+,Prolate,Kramers,100.0,9.0,5.0,,,,,,,2016,2016,10.1016/j.ica.2016.08.020,"Zhang, J.-W., Jiang, Y., Xie, Y.-R., Chu, J. & Liu, B.-Q. 2016 Syntheses, structures, photoluminescence, and magnetism of a series of discrete heavy lanthanide complexes based on a tricarboxylic acid. Inorganica Chimica Acta 453, 257–262. (doi:10.1016/j.ica.2016.08.020)"
+2016_26,[Tm2(TCT)2(H2O)6]·6H2O,Other Families,100000.0,Tm3+,Prolate,Non-Kramers,100.0,9.0,5.0,,,,,,,2016,2016,10.1016/j.ica.2016.08.020,"Zhang, J.-W., Jiang, Y., Xie, Y.-R., Chu, J. & Liu, B.-Q. 2016 Syntheses, structures, photoluminescence, and magnetism of a series of discrete heavy lanthanide complexes based on a tricarboxylic acid. Inorganica Chimica Acta 453, 257–262. (doi:10.1016/j.ica.2016.08.020)"
+2016_26,[Yb2(TCT)2(H2O)6]·6H2O,Other Families,100000.0,Yb3+,Prolate,Kramers,100.0,9.0,5.0,,,,,,,2016,2016,10.1016/j.ica.2016.08.020,"Zhang, J.-W., Jiang, Y., Xie, Y.-R., Chu, J. & Liu, B.-Q. 2016 Syntheses, structures, photoluminescence, and magnetism of a series of discrete heavy lanthanide complexes based on a tricarboxylic acid. Inorganica Chimica Acta 453, 257–262. (doi:10.1016/j.ica.2016.08.020)"
+2016_27,[N(CH3)4]6K3H7[Dy(C4H2O6)(α-PW11O39)]2·27H2O,POM,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,7234832.cif,Proper,Square antiprism,0.498,-3.1,1.0779805,2016,2016,10.1039/c6tc00960c,"Ma, P., Hu, F., Wan, R., Huo, Y., Zhang, D., Niu, J. & Wang, J. 2016 Magnetic double-tartaric bridging mono-lanthanide substituted phosphotungstates with photochromic and switchable luminescence properties. Journal of Materials Chemistry C 4, 5424–5433. (doi:10.1039/c6tc00960c)"
+2016_27,[N(CH3)4]6K3H7[Er(C4H2O6)(α-PW11O39)]2·27H2O,POM,,Er3+,Prolate,Kramers,100.0,8.0,3.0,7234833.cif,Proper,Square antiprism,0.546,-3.0,1.07545,2016,2016,10.1039/c6tc00960c,"Ma, P., Hu, F., Wan, R., Huo, Y., Zhang, D., Niu, J. & Wang, J. 2016 Magnetic double-tartaric bridging mono-lanthanide substituted phosphotungstates with photochromic and switchable luminescence properties. Journal of Materials Chemistry C 4, 5424–5433. (doi:10.1039/c6tc00960c)"
+2016_27,[N(CH3)4]6K3H7[Yb(C4H2O6)(α-PW11O39)]2·27H2O,POM,,Yb3+,Prolate,Kramers,100.0,8.0,3.0,7234834.cif,Proper,Square antiprism,0.55,-3.1,1.0779805,2016,2016,10.1039/c6tc00960c,"Ma, P., Hu, F., Wan, R., Huo, Y., Zhang, D., Niu, J. & Wang, J. 2016 Magnetic double-tartaric bridging mono-lanthanide substituted phosphotungstates with photochromic and switchable luminescence properties. Journal of Materials Chemistry C 4, 5424–5433. (doi:10.1039/c6tc00960c)"
+2016_28,[Dy(fca)2(NO3)(bpy)]·MeC6H5,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1411755.cif,Proper,Square antiprism,2.166,-4.6,1.116058,2016,2016,10.1080/00958972.2016.1217409,"Koroteev, P. S., Dobrokhotova, Z. V., Ilyukhin, A. B., Efimov, N. N. & Novotortsev, V. M. 2016 Synthesis, structure, and magnetic properties of lanthanide ferrocenoylacetonates with nitrate and 2,2′-bipyridine ligands. Journal of Coordination Chemistry 69, 2723–2735. (doi:10.1080/00958972.2016.1217409)"
+2016_28,[Er(fca)2(NO3)(bpy)]·MeC6H5,Diketonate,,Er3+,Prolate,Kramers,100.0,8.0,4.0,1457229.cif,Proper,Square antiprism,1.317,-6.0,1.1518,2016,2016,10.1080/00958972.2016.1217409,"Koroteev, P. S., Dobrokhotova, Z. V., Ilyukhin, A. B., Efimov, N. N. & Novotortsev, V. M. 2016 Synthesis, structure, and magnetic properties of lanthanide ferrocenoylacetonates with nitrate and 2,2′-bipyridine ligands. Journal of Coordination Chemistry 69, 2723–2735. (doi:10.1080/00958972.2016.1217409)"
+2016_28,[Yb(fca)2(NO3)(bpy)]·MeC6H5,Diketonate,,Yb3+,Prolate,Kramers,100.0,8.0,4.0,1457228.cif,Proper,Square antiprism,1.285,-5.800000000000001,1.146682,2016,2016,10.1080/00958972.2016.1217409,"Koroteev, P. S., Dobrokhotova, Z. V., Ilyukhin, A. B., Efimov, N. N. & Novotortsev, V. M. 2016 Synthesis, structure, and magnetic properties of lanthanide ferrocenoylacetonates with nitrate and 2,2′-bipyridine ligands. Journal of Coordination Chemistry 69, 2723–2735. (doi:10.1080/00958972.2016.1217409)"
+2016_29,[Dy(bbpen)Cl],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,7.0,2.0,4130353.cif,Proper,Pentagonal bipyramid,2.048,8.0,0.8032,2016,2016,10.1021/jacs.6b02638,"Liu, J. et al. 2016 A Stable Pentagonal Bipyramidal Dy(III) Single-Ion Magnet with a Record Magnetization Reversal Barrier over 1000 K. Journal of the American Chemical Society 138, 5441–5450. (doi:10.1021/jacs.6b02638)"
+2016_29,[Dy(bbpen)Br],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,7.0,2.0,4130352.cif,Proper,Pentagonal bipyramid,2.302,8.3,0.7959444999999999,2016,2016,10.1021/jacs.6b02638,"Liu, J. et al. 2016 A Stable Pentagonal Bipyramidal Dy(III) Single-Ion Magnet with a Record Magnetization Reversal Barrier over 1000 K. Journal of the American Chemical Society 138, 5441–5450. (doi:10.1021/jacs.6b02638)"
+2016_29,[Dy(bbpen)Cl],Other Families,0.0,Dy3+,Oblate,Kramers,5.7,7.0,2.0,,Isostructural,,,,,2016,2016,10.1021/jacs.6b02638,"Liu, J. et al. 2016 A Stable Pentagonal Bipyramidal Dy(III) Single-Ion Magnet with a Record Magnetization Reversal Barrier over 1000 K. Journal of the American Chemical Society 138, 5441–5450. (doi:10.1021/jacs.6b02638)"
+2016_29,[Dy(bbpen)Br],Other Families,0.0,Dy3+,Oblate,Kramers,5.7,7.0,2.0,,Isostructural,,,,,2016,2016,10.1021/jacs.6b02638,"Liu, J. et al. 2016 A Stable Pentagonal Bipyramidal Dy(III) Single-Ion Magnet with a Record Magnetization Reversal Barrier over 1000 K. Journal of the American Chemical Society 138, 5441–5450. (doi:10.1021/jacs.6b02638)"
+2016_30,[Dy(Cy3PO)2(H2O)5]Cl3-(Cy3PO)-H2O-EtOH,P=O,,Dy3+,Oblate,Kramers,100.0,7.0,7.0,4124922.cif,Proper,Pentagonal bipyramid,0.239,2.6,0.935338,2016,2016,10.1021/jacs.5b13584,"Chen, Y.-C. et al. 2016 Symmetry-Supported Magnetic Blocking at 20 K in Pentagonal Bipyramidal Dy(III) Single-Ion Magnets. Journal of the American Chemical Society 138, 2829–2837. (doi:10.1021/jacs.5b13584)"
+2016_30,[Dy(Cy3PO)2(H2O)5]Br3·2(Cy3PO)·2H2O·2EtOH,P=O,,Dy3+,Oblate,Kramers,100.0,7.0,7.0,4124921.cif,Proper,Pentagonal bipyramid,0.141,2.9,0.9279205,2016,2016,10.1021/jacs.5b13584,"Chen, Y.-C. et al. 2016 Symmetry-Supported Magnetic Blocking at 20 K in Pentagonal Bipyramidal Dy(III) Single-Ion Magnets. Journal of the American Chemical Society 138, 2829–2837. (doi:10.1021/jacs.5b13584)"
+2016_30,[Dy(Cy3PO)2(H2O)5]Cl3-(Cy3PO)·H2O·EtOH,P=O,,Dy3+,Oblate,Kramers,5.0,7.0,7.0,,Isostructural,,,,,2016,2016,10.1021/jacs.5b13584,"Chen, Y.-C. et al. 2016 Symmetry-Supported Magnetic Blocking at 20 K in Pentagonal Bipyramidal Dy(III) Single-Ion Magnets. Journal of the American Chemical Society 138, 2829–2837. (doi:10.1021/jacs.5b13584)"
+2016_30,[Dy(Cy3PO)2(H2O)5]Br3·2(Cy3PO)·2H2O·2EtOH,P=O,,Dy3+,Oblate,Kramers,5.0,7.0,7.0,,Isostructural,,,,,2016,2016,10.1021/jacs.5b13584,"Chen, Y.-C. et al. 2016 Symmetry-Supported Magnetic Blocking at 20 K in Pentagonal Bipyramidal Dy(III) Single-Ion Magnets. Journal of the American Chemical Society 138, 2829–2837. (doi:10.1021/jacs.5b13584)"
+2016_31,Dy(H2O)3(dmf)4(μ‐CN)Co(CN)5]∙nH2O,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,8.0,,,,,,,2016,2016,10.3390/magnetochemistry2020027,"Amjad, A., Figuerola, A., Caneschi, A. & Sorace, L. 2016 Multiple Magnetization Reversal Channels Observed in a 3d-4f Single Molecule Magnet. Magnetochemistry 2, 27. (doi:10.3390/magnetochemistry2020027)"
+2016_32,[Dy2(L)2(MeOH)2(NO3)2]·(MeOH)·(CH2Cl2),Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,4.0,1482439.cif,Proper,Muffin,2.533,-0.8,1.020032,2016,2016,10.3390/magnetochemistry2030035,"Mondal, A., Parmar, V. & Konar, S. 2016 Modulating the Slow Relaxation Dynamics of Binuclear Dysprosium(III) Complexes through Coordination Geometry. Magnetochemistry 2, 35. (doi:10.3390/magnetochemistry2030035)"
+2016_32,[Dy2(L)3(H2O)·MeOH)]·(MeOH)4·(H2O),Other Families,0.0,Dy3+,Oblate,Kramers,100.0,,,1482440.cif,Proper,Others,3.143,,,2016,2016,10.3390/magnetochemistry2030035,"Mondal, A., Parmar, V. & Konar, S. 2016 Modulating the Slow Relaxation Dynamics of Binuclear Dysprosium(III) Complexes through Coordination Geometry. Magnetochemistry 2, 35. (doi:10.3390/magnetochemistry2030035)"
+2016_32,[Dy2(L)2(MeOH)2(NO3)2]·(MeOH)·(CH2Cl2),Other Families,0.0,Dy3+,Oblate,Kramers,5.0,9.0,4.0,,Isostructural,,,,,2016,2016,10.3390/magnetochemistry2030035,"Mondal, A., Parmar, V. & Konar, S. 2016 Modulating the Slow Relaxation Dynamics of Binuclear Dysprosium(III) Complexes through Coordination Geometry. Magnetochemistry 2, 35. (doi:10.3390/magnetochemistry2030035)"
+2016_33,[Dy(NO3)3(H2O)4]·2H2O,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,,7.0,,,,,,,2016,2016,10.3390/magnetochemistry2040041,"Mamontova, E., Long, J., Ferreira, R., Botas, A., Luneau, D., Guari, Y., Carlos, L. & Larionova, J. 2016 Magneto-Luminescence Correlation in the Textbook Dysprosium(III) Nitrate Single-Ion Magnet. Magnetochemistry 2, 41. (doi:10.3390/magnetochemistry2040041)"
+2016_34,[Nd(NO3)2L]PF6·MeCN,Other Families,0.0,Nd3+,Oblate,Kramers,100.0,,3.0,1512922.cif,Isostructural,Others,12.629,,,2016,2016,10.3390/magnetochemistry2040043,"Wada, H., Ooka, S., Iwasawa, D., Hasegawa, M. & Kajiwara, T. 2016 Slow Magnetic Relaxation of Lanthanide(III) Complexes with a Helical Ligand. Magnetochemistry 2, 43. (doi:10.3390/magnetochemistry2040043)"
+2016_34,[Tb(NO3)2L]PF6·MeCN,Other Families,0.0,Tb3+,Oblate,Non-Kramers,100.0,,3.0,,Isostructural,,,,,2016,2016,10.3390/magnetochemistry2040043,"Wada, H., Ooka, S., Iwasawa, D., Hasegawa, M. & Kajiwara, T. 2016 Slow Magnetic Relaxation of Lanthanide(III) Complexes with a Helical Ligand. Magnetochemistry 2, 43. (doi:10.3390/magnetochemistry2040043)"
+2016_34,[Dy(NO3)2L]PF6·MeCN,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,,3.0,,Proper,,,,,2016,2016,10.3390/magnetochemistry2040043,"Wada, H., Ooka, S., Iwasawa, D., Hasegawa, M. & Kajiwara, T. 2016 Slow Magnetic Relaxation of Lanthanide(III) Complexes with a Helical Ligand. Magnetochemistry 2, 43. (doi:10.3390/magnetochemistry2040043)"
+2016_35,[Dy(TTA)2L],Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,,,,,,,2016,2016,10.1016/j.ica.2016.09.026,"Sun, H., Liu, M. & Zhang, B. 2016 Two dysprosium complexes based on 8-hydroxyquinoline Schiff base: Structures, luminescence properties and single-molecule magnets behaviors. Inorganica Chimica Acta 453, 681–686. (doi:10.1016/j.ica.2016.09.026)"
+2016_36,‘fac’-[DyIII(HLDL-ala)3]·8H2O,Schiff Base,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,,,,,,,2016,2016,10.1016/j.poly.2016.01.048,"Hamada, D. et al. 2016 Luminescent DyIII single ion magnets with same N6O3 donor atoms but different donor atom arrangements, ‘fac’-[DyIII(HLDL-ala)3]·8H2O and ‘mer’-[DyIII(HLDL-phe)3]·7H2O. Polyhedron 109, 120–128. (doi:10.1016/j.poly.2016.01.048)"
+2016_36,‘mer’-[DyIII(HLDL-phe)3]·7H2O,Schiff Base,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,,,,,,,2016,2016,10.1016/j.poly.2016.01.048,"Hamada, D. et al. 2016 Luminescent DyIII single ion magnets with same N6O3 donor atoms but different donor atom arrangements, ‘fac’-[DyIII(HLDL-ala)3]·8H2O and ‘mer’-[DyIII(HLDL-phe)3]·7H2O. Polyhedron 109, 120–128. (doi:10.1016/j.poly.2016.01.048)"
+2016_37,[Gd(PA)(NO3)(DMA)3]n,Other Families,100000.0,Gd3+,Isotropic,Kramers,100.0,9.0,6.0,,,,,,,2016,2016,10.1007/s11426-015-0537-6,"Wang, S., Ma, R., Chen, Z., Li, Y., Cao, T., Zhou, C. & Bai, J. 2016 Solvent- and metal-directed lanthanide-organic frameworks based on pamoic acid: observation of slow magnetization relaxation, magnetocaloric effect and luminescent sensing. Science China Chemistry 59, 948–958. (doi:10.1007/s11426-015-0537-6)"
+2016_37,[Dy(PA)(NO3)(DMA)3]n,Other Families,100000.0,Dy3+,Oblate,Kramers,100.0,9.0,6.0,,,,,,,2016,2016,10.1007/s11426-015-0537-6,"Wang, S., Ma, R., Chen, Z., Li, Y., Cao, T., Zhou, C. & Bai, J. 2016 Solvent- and metal-directed lanthanide-organic frameworks based on pamoic acid: observation of slow magnetization relaxation, magnetocaloric effect and luminescent sensing. Science China Chemistry 59, 948–958. (doi:10.1007/s11426-015-0537-6)"
+2016_37,[Tb(PA)(NO3)(DMA)3]n,Other Families,100000.0,Tb3+,Oblate,Non-Kramers,100.0,9.0,6.0,,,,,,,2016,2016,10.1007/s11426-015-0537-6,"Wang, S., Ma, R., Chen, Z., Li, Y., Cao, T., Zhou, C. & Bai, J. 2016 Solvent- and metal-directed lanthanide-organic frameworks based on pamoic acid: observation of slow magnetization relaxation, magnetocaloric effect and luminescent sensing. Science China Chemistry 59, 948–958. (doi:10.1007/s11426-015-0537-6)"
+2016_38,[TbIII(H3L1)2]Cl3∙6MeOH,Other Families,,Tb3+,Oblate,Non-Kramers,100.0,6.0,2.0,1424726.cif,Proper,Octahedron,0.343,0.2,0.995002,2016,2016,10.1080/10610278.2015.1102264,"Janzen, D. E., Juchum, M., Presow, S. R., Ronson, T. K., Mohr, W., Clérac, R., Feltham, H. L. C. & Brooker, S. 2016 Trigonal (-3) symmetry octahedral lanthanide(III) complexes of zwitterionic tripodal ligands: luminescence and magnetism. Supramolecular Chemistry 28, 125–140. (doi:10.1080/10610278.2015.1102264)"
+2016_38,[DyIII(H3L1)2]Cl3∙6MeOH,Other Families,,Dy3+,Oblate,Kramers,100.0,6.0,2.0,1424725.cif,Proper,Octahedron,0.412,0.2,0.995002,2016,2016,10.1080/10610278.2015.1102264,"Janzen, D. E., Juchum, M., Presow, S. R., Ronson, T. K., Mohr, W., Clérac, R., Feltham, H. L. C. & Brooker, S. 2016 Trigonal (-3) symmetry octahedral lanthanide(III) complexes of zwitterionic tripodal ligands: luminescence and magnetism. Supramolecular Chemistry 28, 125–140. (doi:10.1080/10610278.2015.1102264)"
+2016_38,[HoIII(H3L1)2](NO3)3·2H2O,Other Families,,Ho3+,Oblate,Non-Kramers,100.0,6.0,3.0,1424727.cif,Isostructural,Octahedron,0.192,0.2,0.995002,2016,2016,10.1080/10610278.2015.1102264,"Janzen, D. E., Juchum, M., Presow, S. R., Ronson, T. K., Mohr, W., Clérac, R., Feltham, H. L. C. & Brooker, S. 2016 Trigonal (-3) symmetry octahedral lanthanide(III) complexes of zwitterionic tripodal ligands: luminescence and magnetism. Supramolecular Chemistry 28, 125–140. (doi:10.1080/10610278.2015.1102264)"
+2016_38,[ErIII(H3L1)2](NO3)3·H2O,Other Families,,Er3+,Prolate,Kramers,100.0,6.0,4.0,,Isostructural,,,,,2016,2016,10.1080/10610278.2015.1102264,"Janzen, D. E., Juchum, M., Presow, S. R., Ronson, T. K., Mohr, W., Clérac, R., Feltham, H. L. C. & Brooker, S. 2016 Trigonal (-3) symmetry octahedral lanthanide(III) complexes of zwitterionic tripodal ligands: luminescence and magnetism. Supramolecular Chemistry 28, 125–140. (doi:10.1080/10610278.2015.1102264)"
+2016_38,[TbIII(H3L1)2](NO3)3,Other Families,,Tb3+,Oblate,Non-Kramers,100.0,6.0,2.0,,Proper,,,,,2016,2016,10.1080/10610278.2015.1102264,"Janzen, D. E., Juchum, M., Presow, S. R., Ronson, T. K., Mohr, W., Clérac, R., Feltham, H. L. C. & Brooker, S. 2016 Trigonal (-3) symmetry octahedral lanthanide(III) complexes of zwitterionic tripodal ligands: luminescence and magnetism. Supramolecular Chemistry 28, 125–140. (doi:10.1080/10610278.2015.1102264)"
+2016_39,"[Dy(2,3′-pcad)(NO3)2(CH3OH)2]",Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,5.0,4348892.cif,Proper,Spherical tricapped trigonal prism,2.293,8.1,0.8007805,2016,2016,10.1021/acs.inorgchem.6b01803,"Sun, L., Zhang, S., Qiao, C., Chen, S., Yin, B., Wang, W., Wei, Q., Xie, G. & Gao, S. 2016 Fine-Tuning of the Coordination Environment To Regulate the Magnetic Behavior in Solvent/Anion-Dependent DyIII Compounds: Synthesis, Structure, Magnetism, and Ab Initio Calculations. Inorganic Chemistry 55, 10587–10596. (doi:10.1021/acs.inorgchem.6b01803)"
+2016_39,"[Dy(2,3′-Hpcad)2(H2O)3]·3Cl·5H2O",Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,5.0,4348895.cif,Proper,Muffin,1.496,-1.2,1.030072,2016,2016,10.1021/acs.inorgchem.6b01803,"Sun, L., Zhang, S., Qiao, C., Chen, S., Yin, B., Wang, W., Wei, Q., Xie, G. & Gao, S. 2016 Fine-Tuning of the Coordination Environment To Regulate the Magnetic Behavior in Solvent/Anion-Dependent DyIII Compounds: Synthesis, Structure, Magnetism, and Ab Initio Calculations. Inorganic Chemistry 55, 10587–10596. (doi:10.1021/acs.inorgchem.6b01803)"
+2016_39,"[Dy(2,3′-pcad)(NO3)(H2O)4]·NO3·H2O",Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,8.0,4348898.cif,Proper,Spherical capped square antiprism,1.333,-0.8,1.020032,2016,2016,10.1021/acs.inorgchem.6b01803,"Sun, L., Zhang, S., Qiao, C., Chen, S., Yin, B., Wang, W., Wei, Q., Xie, G. & Gao, S. 2016 Fine-Tuning of the Coordination Environment To Regulate the Magnetic Behavior in Solvent/Anion-Dependent DyIII Compounds: Synthesis, Structure, Magnetism, and Ab Initio Calculations. Inorganic Chemistry 55, 10587–10596. (doi:10.1021/acs.inorgchem.6b01803)"
+2016_40,[DyZn(H2O)(phen)(mb)5],TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,6.0,1428245.cif,Proper,Triangular dodecahedron,2.314,5.7,0.8591245,2016,2016,10.1016/j.ica.2016.02.035,"Li, Y., Zhang, C., Yu, J.-W., Yang, E.-C. & Zhao, X.-J. 2016 Transition metal ion-directed magnetic behaviors observed in an isostructural heterobinuclear system. Inorganica Chimica Acta 445, 110–116. (doi:10.1016/j.ica.2016.02.035)"
+2016_41,[(C5H5BH)Er(COT)],Metallocene,,Er3+,Prolate,Kramers,100.0,2.0,2.0,4349458.cif,Proper,,,,,2016,2016,10.1039/c6qi00028b,"Meng, Y.-S., Wang, C.-H., Zhang, Y.-Q., Leng, X.-B., Wang, B.-W., Chen, Y.-F. & Gao, S. 2016 (Boratabenzene)(cyclooctatetraenyl) lanthanide complexes: a new type of organometallic single-ion magnet. Inorganic Chemistry Frontiers 3, 828–835. (doi:10.1039/c6qi00028b)"
+2016_41,[(C5H5BMe)Er(COT)],Metallocene,,Er3+,Prolate,Kramers,100.0,2.0,2.0,4349459.cif,Proper,,,,,2016,2016,10.1039/c6qi00028b,"Meng, Y.-S., Wang, C.-H., Zhang, Y.-Q., Leng, X.-B., Wang, B.-W., Chen, Y.-F. & Gao, S. 2016 (Boratabenzene)(cyclooctatetraenyl) lanthanide complexes: a new type of organometallic single-ion magnet. Inorganic Chemistry Frontiers 3, 828–835. (doi:10.1039/c6qi00028b)"
+2016_41,[(C5H5BNEt2)Er(COT)],Metallocene,,Er3+,Prolate,Kramers,100.0,2.0,2.0,4349460.cif,Proper,,,,,2016,2016,10.1039/c6qi00028b,"Meng, Y.-S., Wang, C.-H., Zhang, Y.-Q., Leng, X.-B., Wang, B.-W., Chen, Y.-F. & Gao, S. 2016 (Boratabenzene)(cyclooctatetraenyl) lanthanide complexes: a new type of organometallic single-ion magnet. Inorganic Chemistry Frontiers 3, 828–835. (doi:10.1039/c6qi00028b)"
+2016_41,[(C5H5BH)Dy(COT)],Metallocene,,Dy3+,Oblate,Kramers,100.0,2.0,2.0,4349461.cif,Proper,,,,,2016,2016,10.1039/c6qi00028b,"Meng, Y.-S., Wang, C.-H., Zhang, Y.-Q., Leng, X.-B., Wang, B.-W., Chen, Y.-F. & Gao, S. 2016 (Boratabenzene)(cyclooctatetraenyl) lanthanide complexes: a new type of organometallic single-ion magnet. Inorganic Chemistry Frontiers 3, 828–835. (doi:10.1039/c6qi00028b)"
+2016_41,[(C5H5BMe)Dy(COT)],Metallocene,,Dy3+,Oblate,Kramers,100.0,2.0,2.0,4349462.cif,Proper,,,,,2016,2016,10.1039/c6qi00028b,"Meng, Y.-S., Wang, C.-H., Zhang, Y.-Q., Leng, X.-B., Wang, B.-W., Chen, Y.-F. & Gao, S. 2016 (Boratabenzene)(cyclooctatetraenyl) lanthanide complexes: a new type of organometallic single-ion magnet. Inorganic Chemistry Frontiers 3, 828–835. (doi:10.1039/c6qi00028b)"
+2016_41,[(C5H5BNEt2)Dy(COT)],Metallocene,,Dy3+,Oblate,Kramers,100.0,2.0,2.0,4349463.cif,Proper,,,,,2016,2016,10.1039/c6qi00028b,"Meng, Y.-S., Wang, C.-H., Zhang, Y.-Q., Leng, X.-B., Wang, B.-W., Chen, Y.-F. & Gao, S. 2016 (Boratabenzene)(cyclooctatetraenyl) lanthanide complexes: a new type of organometallic single-ion magnet. Inorganic Chemistry Frontiers 3, 828–835. (doi:10.1039/c6qi00028b)"
+2016_42,[L2Nd(H2O)5][I]3·L2·(H2O),P=O,,Nd3+,Oblate,Kramers,100.0,7.0,7.0,1451543.cif,Proper,Pentagonal bipyramid,0.516,3.0,0.92545,2016,2016,10.1039/c6cc03066a,"Gupta, S. K., Rajeshkumar, T., Rajaraman, G. & Murugavel, R. 2016 An unprecedented zero field neodymium(iii) single-ion magnet based on a phosphonic diamide. Chemical Communications 52, 7168–7171. (doi:10.1039/c6cc03066a)"
+2016_43,[Dy(hfac)3(L)]·0.5C6H14,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7125305.cif,Proper,Triangular dodecahedron,0.795,1.9,0.9526805,2016,2016,10.1039/c6cc08638a,"Ou-Yang, J.-K. et al. 2016 Improved slow magnetic relaxation in optically pure helicene-based DyIII single molecule magnets. Chemical Communications 52, 14474–14477. (doi:10.1039/c6cc08638a)"
+2016_43,[Dy(hfac)3(L(-))],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7125304.cif,Proper,Triangular dodecahedron,0.504,-0.7000000000000001,1.0175245,2016,2016,10.1039/c6cc08638a,"Ou-Yang, J.-K. et al. 2016 Improved slow magnetic relaxation in optically pure helicene-based DyIII single molecule magnets. Chemical Communications 52, 14474–14477. (doi:10.1039/c6cc08638a)"
+2016_43,[Dy(hfac)3(L(+))],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7125303.cif,Proper,Triangular dodecahedron,0.486,-0.5,1.0125125,2016,2016,10.1039/c6cc08638a,"Ou-Yang, J.-K. et al. 2016 Improved slow magnetic relaxation in optically pure helicene-based DyIII single molecule magnets. Chemical Communications 52, 14474–14477. (doi:10.1039/c6cc08638a)"
+2016_44,Dy(12-C-4)(NO3)3,Crown Ether,,Dy3+,Oblate,Kramers,100.0,,4.0,4349108.cif,Proper,Others,2.836,,,2016,2016,10.1039/c5qi00308c,"Ding, Y.-S., Han, T., Hu, Y.-Q., Xu, M., Yang, S. & Zheng, Y.-Z. 2016 Syntheses, structures and magnetic properties of a series of mono- and di-nuclear dysprosium(iii)-crown-ether complexes: effects of a weak ligand-field and flexible cyclic coordination modes. Inorganic Chemistry Frontiers 3, 798–807. (doi:10.1039/c5qi00308c)"
+2016_44,Dy(12-C-4)2(CH3CN)(ClO4)3,Crown Ether,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,4349111.cif,Proper,Others,4.344,,,2016,2016,10.1039/c5qi00308c,"Ding, Y.-S., Han, T., Hu, Y.-Q., Xu, M., Yang, S. & Zheng, Y.-Z. 2016 Syntheses, structures and magnetic properties of a series of mono- and di-nuclear dysprosium(iii)-crown-ether complexes: effects of a weak ligand-field and flexible cyclic coordination modes. Inorganic Chemistry Frontiers 3, 798–807. (doi:10.1039/c5qi00308c)"
+2016_44,[Dy(12-C-4)(15-C-5)(CH3CN)][Dy(12-C-4)(15-C-5)]2(CH3CN)2(ClO4)9,Crown Ether,,Dy3+,Oblate,Kramers,100.0,,,,Proper,,,,,2016,2016,10.1039/c5qi00308c,"Ding, Y.-S., Han, T., Hu, Y.-Q., Xu, M., Yang, S. & Zheng, Y.-Z. 2016 Syntheses, structures and magnetic properties of a series of mono- and di-nuclear dysprosium(iii)-crown-ether complexes: effects of a weak ligand-field and flexible cyclic coordination modes. Inorganic Chemistry Frontiers 3, 798–807. (doi:10.1039/c5qi00308c)"
+2016_44,[Dy(18-C-6)(NO3)2]ClO4,Crown Ether,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,4349107.cif,Proper,Biaugmented trigonal prism,5.528,-0.1,1.0025005,2016,2016,10.1039/c5qi00308c,"Ding, Y.-S., Han, T., Hu, Y.-Q., Xu, M., Yang, S. & Zheng, Y.-Z. 2016 Syntheses, structures and magnetic properties of a series of mono- and di-nuclear dysprosium(iii)-crown-ether complexes: effects of a weak ligand-field and flexible cyclic coordination modes. Inorganic Chemistry Frontiers 3, 798–807. (doi:10.1039/c5qi00308c)"
+2016_44,[Dy(18-C-6)(NO3)2]BPh4,Crown Ether,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,4349106.cif,Proper,Square antiprism,2.271,9.3,0.7718245,2016,2016,10.1039/c5qi00308c,"Ding, Y.-S., Han, T., Hu, Y.-Q., Xu, M., Yang, S. & Zheng, Y.-Z. 2016 Syntheses, structures and magnetic properties of a series of mono- and di-nuclear dysprosium(iii)-crown-ether complexes: effects of a weak ligand-field and flexible cyclic coordination modes. Inorganic Chemistry Frontiers 3, 798–807. (doi:10.1039/c5qi00308c)"
+2016_45,[(Tp)Tm(COT)],Other Families,100.0,Tm3+,Prolate,Non-Kramers,100.0,4.0,2.0,,,,,,,2016,2016,10.1002/chem.201600023,"Meng, Y.-S., Qiao, Y.-S., Zhang, Y.-Q., Jiang, S.-D., Meng, Z.-S., Wang, B.-W., Wang, Z.-M. & Gao, S. 2016 Can Non-Kramers TmIII Mononuclear Molecules be Single-Molecule Magnets (SMMs)? Chemistry - A European Journal 22, 4704–4708. (doi:10.1002/chem.201600023)"
+2016_45,[(Tp*)Tm(COT)],Other Families,100.0,Tm3+,Prolate,Non-Kramers,100.0,4.0,2.0,,,,,,,2016,2016,10.1002/chem.201600023,"Meng, Y.-S., Qiao, Y.-S., Zhang, Y.-Q., Jiang, S.-D., Meng, Z.-S., Wang, B.-W., Wang, Z.-M. & Gao, S. 2016 Can Non-Kramers TmIII Mononuclear Molecules be Single-Molecule Magnets (SMMs)? Chemistry - A European Journal 22, 4704–4708. (doi:10.1002/chem.201600023)"
+2016_45,[(Tp)Tm0.05Y0.95(COT)],Other Families,100.0,Tm3+,Prolate,Non-Kramers,5.0,4.0,2.0,,,,,,,2016,2016,10.1002/chem.201600023,"Meng, Y.-S., Qiao, Y.-S., Zhang, Y.-Q., Jiang, S.-D., Meng, Z.-S., Wang, B.-W., Wang, Z.-M. & Gao, S. 2016 Can Non-Kramers TmIII Mononuclear Molecules be Single-Molecule Magnets (SMMs)? Chemistry - A European Journal 22, 4704–4708. (doi:10.1002/chem.201600023)"
+2016_45,[(Tp*)Tm0.05Y0.95(COT)],Other Families,100.0,Tm3+,Prolate,Non-Kramers,5.0,4.0,2.0,,,,,,,2016,2016,10.1002/chem.201600023,"Meng, Y.-S., Qiao, Y.-S., Zhang, Y.-Q., Jiang, S.-D., Meng, Z.-S., Wang, B.-W., Wang, Z.-M. & Gao, S. 2016 Can Non-Kramers TmIII Mononuclear Molecules be Single-Molecule Magnets (SMMs)? Chemistry - A European Journal 22, 4704–4708. (doi:10.1002/chem.201600023)"
+2016_46,Dy(LH)3,Other Families,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,1433866.cif,Proper,Spherical capped square antiprism,1.37,-0.2,1.005002,2016,2016,10.1002/chem.201505211,"Lucaccini, E., Briganti, M., Perfetti, M., Vendier, L., Costes, J.-P., Totti, F., Sessoli, R. & Sorace, L. 2016 Relaxation Dynamics and Magnetic Anisotropy in a Low-Symmetry DyIIIComplex. Chemistry - A European Journal 22, 5552–5562. (doi:10.1002/chem.201505211)"
+2016_46,YDy(LH)3,Other Families,,Dy3+,Oblate,Kramers,10.5,9.0,3.0,,Isostructural,,,,,2016,2016,10.1002/chem.201505211,"Lucaccini, E., Briganti, M., Perfetti, M., Vendier, L., Costes, J.-P., Totti, F., Sessoli, R. & Sorace, L. 2016 Relaxation Dynamics and Magnetic Anisotropy in a Low-Symmetry DyIIIComplex. Chemistry - A European Journal 22, 5552–5562. (doi:10.1002/chem.201505211)"
+2016_47,[ZnNd(LH4)2](NO3)3·6H2O,TM near Ln,,Nd3+,Oblate,Kramers,100.0,8.0,2.0,1474025.cif,Isostructural,Square antiprism,0.626,-2.6,1.065338,2016,2016,10.1002/chem.201601996,"Amjad, A., Madalan, A. M., Andruh, M., Caneschi, A. & Sorace, L. 2016 Slow Relaxation of Magnetization in an Isostructural Series of Zinc-Lanthanide Complexes: An Integrated EPR and AC Susceptibility Study. Chemistry - A European Journal 22, 12849–12858. (doi:10.1002/chem.201601996)"
+2016_47,[ZnTb(LH4)2](NO3)3·6H2O,TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,Proper,,,,,2016,2016,10.1002/chem.201601996,"Amjad, A., Madalan, A. M., Andruh, M., Caneschi, A. & Sorace, L. 2016 Slow Relaxation of Magnetization in an Isostructural Series of Zinc-Lanthanide Complexes: An Integrated EPR and AC Susceptibility Study. Chemistry - A European Journal 22, 12849–12858. (doi:10.1002/chem.201601996)"
+2016_47,[ZnDy(LH4)2](NO3)3·6H2O,TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,1474019.cif,Proper,Square antiprism,0.619,-2.6,1.065338,2016,2016,10.1002/chem.201601996,"Amjad, A., Madalan, A. M., Andruh, M., Caneschi, A. & Sorace, L. 2016 Slow Relaxation of Magnetization in an Isostructural Series of Zinc-Lanthanide Complexes: An Integrated EPR and AC Susceptibility Study. Chemistry - A European Journal 22, 12849–12858. (doi:10.1002/chem.201601996)"
+2016_47,[ZnHo(LH4)2](NO3)3·6H2O,TM near Ln,,Ho3+,Oblate,Non-Kramers,100.0,8.0,2.0,1474020.cif,Proper,Square antiprism,0.543,-2.3,1.0577645,2016,2016,10.1002/chem.201601996,"Amjad, A., Madalan, A. M., Andruh, M., Caneschi, A. & Sorace, L. 2016 Slow Relaxation of Magnetization in an Isostructural Series of Zinc-Lanthanide Complexes: An Integrated EPR and AC Susceptibility Study. Chemistry - A European Journal 22, 12849–12858. (doi:10.1002/chem.201601996)"
+2016_47,[ZnEr(LH4)2](NO3)3·6H2O,TM near Ln,,Er3+,Prolate,Kramers,100.0,8.0,2.0,1474026.cif,Proper,Square antiprism,0.566,-2.5,1.0628125,2016,2016,10.1002/chem.201601996,"Amjad, A., Madalan, A. M., Andruh, M., Caneschi, A. & Sorace, L. 2016 Slow Relaxation of Magnetization in an Isostructural Series of Zinc-Lanthanide Complexes: An Integrated EPR and AC Susceptibility Study. Chemistry - A European Journal 22, 12849–12858. (doi:10.1002/chem.201601996)"
+2016_47,[ZnYb(LH4)2](NO3)3·6H2O,TM near Ln,,Yb3+,Prolate,Kramers,100.0,8.0,2.0,,Isostructural,,,,,2016,2016,10.1002/chem.201601996,"Amjad, A., Madalan, A. M., Andruh, M., Caneschi, A. & Sorace, L. 2016 Slow Relaxation of Magnetization in an Isostructural Series of Zinc-Lanthanide Complexes: An Integrated EPR and AC Susceptibility Study. Chemistry - A European Journal 22, 12849–12858. (doi:10.1002/chem.201601996)"
+2016_47,[ZnDy(LH4)2](NO3)3·6H2O,TM near Ln,,Dy3+,Oblate,Kramers,1.0,8.0,2.0,,Isostructural,,,,,2016,2016,10.1002/chem.201601996,"Amjad, A., Madalan, A. M., Andruh, M., Caneschi, A. & Sorace, L. 2016 Slow Relaxation of Magnetization in an Isostructural Series of Zinc-Lanthanide Complexes: An Integrated EPR and AC Susceptibility Study. Chemistry - A European Journal 22, 12849–12858. (doi:10.1002/chem.201601996)"
+2016_47,[ZnDy(LH4)2](NO3)3·6H2O,TM near Ln,,Dy3+,Oblate,Kramers,5.0,8.0,2.0,,Isostructural,,,,,2016,2016,10.1002/chem.201601996,"Amjad, A., Madalan, A. M., Andruh, M., Caneschi, A. & Sorace, L. 2016 Slow Relaxation of Magnetization in an Isostructural Series of Zinc-Lanthanide Complexes: An Integrated EPR and AC Susceptibility Study. Chemistry - A European Journal 22, 12849–12858. (doi:10.1002/chem.201601996)"
+2016_47,[ZnDy(LH4)2](NO3)3·6H2O,TM near Ln,,Dy3+,Oblate,Kramers,25.0,8.0,4.0,,Isostructural,,,,,2016,2016,10.1002/chem.201601996,"Amjad, A., Madalan, A. M., Andruh, M., Caneschi, A. & Sorace, L. 2016 Slow Relaxation of Magnetization in an Isostructural Series of Zinc-Lanthanide Complexes: An Integrated EPR and AC Susceptibility Study. Chemistry - A European Journal 22, 12849–12858. (doi:10.1002/chem.201601996)"
+2016_48,Na5[Dy(oda)3](H2O)6(BF4)2,Other Families,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,,,,,,,2016,2016,10.1002/chem.201601741,"Baldoví, J. J., Duan, Y., Morales, R., Gaita-Ariño, A., Ruiz, E. & Coronado, E. 2016 Rational Design of Lanthanoid Single-Ion Magnets: Predictive Power of the Theoretical Models. Chemistry - A European Journal 22, 13532–13539. (doi:10.1002/chem.201601741)"
+2016_48,Na5[Dy/Y(oda)3](H2O)6(BF4)2,Other Families,,Dy3+,Oblate,Kramers,1.0,9.0,3.0,,,,,,,2016,2016,10.1002/chem.201601741,"Baldoví, J. J., Duan, Y., Morales, R., Gaita-Ariño, A., Ruiz, E. & Coronado, E. 2016 Rational Design of Lanthanoid Single-Ion Magnets: Predictive Power of the Theoretical Models. Chemistry - A European Journal 22, 13532–13539. (doi:10.1002/chem.201601741)"
+2016_48,Na5[Er(oda)3](H2O)6(BF4)2,Other Families,,Er3+,Prolate,Kramers,100.0,9.0,3.0,,,,,,,2016,2016,10.1002/chem.201601741,"Baldoví, J. J., Duan, Y., Morales, R., Gaita-Ariño, A., Ruiz, E. & Coronado, E. 2016 Rational Design of Lanthanoid Single-Ion Magnets: Predictive Power of the Theoretical Models. Chemistry - A European Journal 22, 13532–13539. (doi:10.1002/chem.201601741)"
+2016_48,Na5[Er/Y(oda)3](H2O)6(BF4)2,Other Families,,Er3+,Prolate,Kramers,5.0,9.0,3.0,,,,,,,2016,2016,10.1002/chem.201601741,"Baldoví, J. J., Duan, Y., Morales, R., Gaita-Ariño, A., Ruiz, E. & Coronado, E. 2016 Rational Design of Lanthanoid Single-Ion Magnets: Predictive Power of the Theoretical Models. Chemistry - A European Journal 22, 13532–13539. (doi:10.1002/chem.201601741)"
+2016_49,[YbL3]·CH3OH,Other Families,,Yb3+,Prolate,Kramers,100.0,9.0,3.0,1469027.cif,Proper,Spherical capped square antiprism,0.932,0.2,0.995002,2016,2016,10.1002/chem.201601457,"Jiménez, J.-R., Díaz-Ortega, I. F., Ruiz, E., Aravena, D., Pope, S. J. A., Colacio, E. & Herrera, J. M. 2016 Lanthanide Tetrazolate Complexes Combining Single-Molecule Magnet and Luminescence Properties: The Effect of the Replacement of Tetrazolate N3by β-Diketonate Ligands on the Anisotropy Energy Barrier. Chemistry - A European Journal 22, 14548–14559. (doi:10.1002/chem.201601457)"
+2016_49,[ErL3]·CH3OH,Other Families,,Er3+,Prolate,Kramers,100.0,9.0,3.0,1469029.cif,Proper,Spherical capped square antiprism,0.979,0.3,0.9925045,2016,2016,10.1002/chem.201601457,"Jiménez, J.-R., Díaz-Ortega, I. F., Ruiz, E., Aravena, D., Pope, S. J. A., Colacio, E. & Herrera, J. M. 2016 Lanthanide Tetrazolate Complexes Combining Single-Molecule Magnet and Luminescence Properties: The Effect of the Replacement of Tetrazolate N3by β-Diketonate Ligands on the Anisotropy Energy Barrier. Chemistry - A European Journal 22, 14548–14559. (doi:10.1002/chem.201601457)"
+2016_49,[DyL3]·CH3OH,Other Families,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,1469031.cif,Proper,Spherical capped square antiprism,1.061,0.3,0.9925045,2016,2016,10.1002/chem.201601457,"Jiménez, J.-R., Díaz-Ortega, I. F., Ruiz, E., Aravena, D., Pope, S. J. A., Colacio, E. & Herrera, J. M. 2016 Lanthanide Tetrazolate Complexes Combining Single-Molecule Magnet and Luminescence Properties: The Effect of the Replacement of Tetrazolate N3by β-Diketonate Ligands on the Anisotropy Energy Barrier. Chemistry - A European Journal 22, 14548–14559. (doi:10.1002/chem.201601457)"
+2016_49,[GdL3]·CH3OH,Other Families,,Gd3+,Isotropic,Kramers,100.0,9.0,3.0,,Proper,,,,,2016,2016,10.1002/chem.201601457,"Jiménez, J.-R., Díaz-Ortega, I. F., Ruiz, E., Aravena, D., Pope, S. J. A., Colacio, E. & Herrera, J. M. 2016 Lanthanide Tetrazolate Complexes Combining Single-Molecule Magnet and Luminescence Properties: The Effect of the Replacement of Tetrazolate N3by β-Diketonate Ligands on the Anisotropy Energy Barrier. Chemistry - A European Journal 22, 14548–14559. (doi:10.1002/chem.201601457)"
+2016_49,[YbL2(tmh)(CH3OH)]·nH2O·mCH3OH,Diketonate,,Yb3+,Prolate,Kramers,100.0,9.0,4.0,1469026.cif,Proper,Spherical capped square antiprism,0.728,-0.8999999999999999,1.0225405,2016,2016,10.1002/chem.201601457,"Jiménez, J.-R., Díaz-Ortega, I. F., Ruiz, E., Aravena, D., Pope, S. J. A., Colacio, E. & Herrera, J. M. 2016 Lanthanide Tetrazolate Complexes Combining Single-Molecule Magnet and Luminescence Properties: The Effect of the Replacement of Tetrazolate N3by β-Diketonate Ligands on the Anisotropy Energy Barrier. Chemistry - A European Journal 22, 14548–14559. (doi:10.1002/chem.201601457)"
+2016_49,[ErL2(tmh)(CH3OH)]·nH2O·mCH3OH,Diketonate,,Er3+,Prolate,Kramers,100.0,9.0,4.0,1469025.cif,Proper,Spherical capped square antiprism,0.7,-0.8,1.020032,2016,2016,10.1002/chem.201601457,"Jiménez, J.-R., Díaz-Ortega, I. F., Ruiz, E., Aravena, D., Pope, S. J. A., Colacio, E. & Herrera, J. M. 2016 Lanthanide Tetrazolate Complexes Combining Single-Molecule Magnet and Luminescence Properties: The Effect of the Replacement of Tetrazolate N3by β-Diketonate Ligands on the Anisotropy Energy Barrier. Chemistry - A European Journal 22, 14548–14559. (doi:10.1002/chem.201601457)"
+2016_49,[DyL2(tmh)(CH3OH)]·nH2O·mCH3OH,Diketonate,,Dy3+,Oblate,Kramers,100.0,9.0,4.0,1469032.cif,Proper,Spherical capped square antiprism,0.762,-1.0,1.02505,2016,2016,10.1002/chem.201601457,"Jiménez, J.-R., Díaz-Ortega, I. F., Ruiz, E., Aravena, D., Pope, S. J. A., Colacio, E. & Herrera, J. M. 2016 Lanthanide Tetrazolate Complexes Combining Single-Molecule Magnet and Luminescence Properties: The Effect of the Replacement of Tetrazolate N3by β-Diketonate Ligands on the Anisotropy Energy Barrier. Chemistry - A European Journal 22, 14548–14559. (doi:10.1002/chem.201601457)"
+2016_49,[GdL2(tmh)(CH3OH)]·nH2O·mCH3OH,Diketonate,,Gd3+,Isotropic,Kramers,100.0,9.0,4.0,,Proper,,,,,2016,2016,10.1002/chem.201601457,"Jiménez, J.-R., Díaz-Ortega, I. F., Ruiz, E., Aravena, D., Pope, S. J. A., Colacio, E. & Herrera, J. M. 2016 Lanthanide Tetrazolate Complexes Combining Single-Molecule Magnet and Luminescence Properties: The Effect of the Replacement of Tetrazolate N3by β-Diketonate Ligands on the Anisotropy Energy Barrier. Chemistry - A European Journal 22, 14548–14559. (doi:10.1002/chem.201601457)"
+2016_49,[YbL2(tta)(CH3OH)]·CH3OH,Diketonate,,Yb3+,Prolate,Kramers,100.0,9.0,4.0,1469030.cif,Proper,Spherical capped square antiprism,0.766,-1.2,1.030072,2016,2016,10.1002/chem.201601457,"Jiménez, J.-R., Díaz-Ortega, I. F., Ruiz, E., Aravena, D., Pope, S. J. A., Colacio, E. & Herrera, J. M. 2016 Lanthanide Tetrazolate Complexes Combining Single-Molecule Magnet and Luminescence Properties: The Effect of the Replacement of Tetrazolate N3by β-Diketonate Ligands on the Anisotropy Energy Barrier. Chemistry - A European Journal 22, 14548–14559. (doi:10.1002/chem.201601457)"
+2016_49,[ErL2(tta)(CH3OH)]·CH3OH,Diketonate,,Er3+,Prolate,Kramers,100.0,9.0,5.0,1469028.cif,Proper,Spherical capped square antiprism,0.777,-1.1,1.0275605,2016,2016,10.1002/chem.201601457,"Jiménez, J.-R., Díaz-Ortega, I. F., Ruiz, E., Aravena, D., Pope, S. J. A., Colacio, E. & Herrera, J. M. 2016 Lanthanide Tetrazolate Complexes Combining Single-Molecule Magnet and Luminescence Properties: The Effect of the Replacement of Tetrazolate N3by β-Diketonate Ligands on the Anisotropy Energy Barrier. Chemistry - A European Journal 22, 14548–14559. (doi:10.1002/chem.201601457)"
+2016_49,[DyL2(tta)(CH3OH)]·CH3OH,Diketonate,,Dy3+,Oblate,Kramers,100.0,9.0,6.0,1469036.cif,Proper,Spherical capped square antiprism,0.833,-1.2,1.030072,2016,2016,10.1002/chem.201601457,"Jiménez, J.-R., Díaz-Ortega, I. F., Ruiz, E., Aravena, D., Pope, S. J. A., Colacio, E. & Herrera, J. M. 2016 Lanthanide Tetrazolate Complexes Combining Single-Molecule Magnet and Luminescence Properties: The Effect of the Replacement of Tetrazolate N3by β-Diketonate Ligands on the Anisotropy Energy Barrier. Chemistry - A European Journal 22, 14548–14559. (doi:10.1002/chem.201601457)"
+2016_49,[GdL2(tta)(CH3OH)]·CH3OH,Diketonate,,Gd3+,Isotropic,Kramers,100.0,9.0,7.0,,Proper,,,,,2016,2016,10.1002/chem.201601457,"Jiménez, J.-R., Díaz-Ortega, I. F., Ruiz, E., Aravena, D., Pope, S. J. A., Colacio, E. & Herrera, J. M. 2016 Lanthanide Tetrazolate Complexes Combining Single-Molecule Magnet and Luminescence Properties: The Effect of the Replacement of Tetrazolate N3by β-Diketonate Ligands on the Anisotropy Energy Barrier. Chemistry - A European Journal 22, 14548–14559. (doi:10.1002/chem.201601457)"
+2016_50,LMC-Dy,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,3.0,1494559.cif,Proper,Triangular dodecahedron,1.348,-0.8999999999999999,1.0225405,2016,2016,10.1002/chem.201603439,"Selvanathan, P. et al. 2016 Highly Axial Magnetic Anisotropy in a N3O5Dysprosium(III) Coordination Environment Generated by a Merocyanine Ligand. Chemistry - A European Journal 22, 15222–15226. (doi:10.1002/chem.201603439)"
+2016_50,LMC-Yb,Other Families,0.0,Yb3+,Prolate,Kramers,100.0,8.0,3.0,1494560.cif,Proper,Triangular dodecahedron,1.369,-0.8999999999999999,1.0225405,2016,2016,10.1002/chem.201603439,"Selvanathan, P. et al. 2016 Highly Axial Magnetic Anisotropy in a N3O5Dysprosium(III) Coordination Environment Generated by a Merocyanine Ligand. Chemistry - A European Journal 22, 15222–15226. (doi:10.1002/chem.201603439)"
+2016_50,LMC-Dy,Other Families,0.0,Dy3+,Oblate,Kramers,3.0,8.0,3.0,,Isostructural,,,,,2016,2016,10.1002/chem.201603439,"Selvanathan, P. et al. 2016 Highly Axial Magnetic Anisotropy in a N3O5Dysprosium(III) Coordination Environment Generated by a Merocyanine Ligand. Chemistry - A European Journal 22, 15222–15226. (doi:10.1002/chem.201603439)"
+2016_51,[Dy(BIPMTMS)(BIPMTMSH)],Other Families,,Dy3+,Oblate,Kramers,100.0,6.0,2.0,1540562.cif,Proper,Others,14.04,,,2016,2016,10.1039/c5sc03111g,"Gregson, M. et al. 2016 A monometallic lanthanide bis(methanediide) single molecule magnet with a large energy barrier and complex spin relaxation behaviour. Chemical Science 7, 155–165. (doi:10.1039/c5sc03111g)"
+2016_51,[Dy(BIPMTMS)2][K(18C6)(THF)2],Other Families,,Dy3+,Oblate,Kramers,100.0,6.0,2.0,1540566.cif,Proper,Others,11.963,,,2016,2016,10.1039/c5sc03111g,"Gregson, M. et al. 2016 A monometallic lanthanide bis(methanediide) single molecule magnet with a large energy barrier and complex spin relaxation behaviour. Chemical Science 7, 155–165. (doi:10.1039/c5sc03111g)"
+2016_51,[Dy(BIPMTMS)2][K(18C6)(THF)2],Other Families,,Dy3+,Oblate,Kramers,9.09090909090909,6.0,2.0,,Isostructural,,,,,2016,2016,10.1039/c5sc03111g,"Gregson, M. et al. 2016 A monometallic lanthanide bis(methanediide) single molecule magnet with a large energy barrier and complex spin relaxation behaviour. Chemical Science 7, 155–165. (doi:10.1039/c5sc03111g)"
+2016_51,[Dy(BIPMTMS)2][K(18C6)(THF)2],Other Families,,Dy3+,Oblate,Kramers,3.0,6.0,2.0,,Isostructural,,,,,2016,2016,10.1039/c5sc03111g,"Gregson, M. et al. 2016 A monometallic lanthanide bis(methanediide) single molecule magnet with a large energy barrier and complex spin relaxation behaviour. Chemical Science 7, 155–165. (doi:10.1039/c5sc03111g)"
+2016_52,([Zn2(L1)2DyCl3]·2H2O,Schiff Base,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,1536868.cif,Proper,Muffin,3.322,-5.1,1.1288005,2016,2016,10.1039/c5sc02986d,"Sun, W.-B., Yan, P.-F., Jiang, S.-D., Wang, B.-W., Zhang, Y.-Q., Li, H.-F., Chen, P., Wang, Z.-M. & Gao, S. 2016 High symmetry or low symmetry, that is the question – high performance Dy(iii) single-ion magnets by electrostatic potential design. Chemical Science 7, 684–691. (doi:10.1039/c5sc02986d)"
+2016_52,([Zn2(L1)2DyCl3]·2H2O,Schiff Base,,Dy3+,Oblate,Kramers,4.76190476190476,9.0,3.0,,Isostructural,,,,,2016,2016,10.1039/c5sc02986d,"Sun, W.-B., Yan, P.-F., Jiang, S.-D., Wang, B.-W., Zhang, Y.-Q., Li, H.-F., Chen, P., Wang, Z.-M. & Gao, S. 2016 High symmetry or low symmetry, that is the question – high performance Dy(iii) single-ion magnets by electrostatic potential design. Chemical Science 7, 684–691. (doi:10.1039/c5sc02986d)"
+2016_52,[Zn2(L1)2Dy(MeOH)Br3]·3H2O,Schiff Base,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,1536869.cif,Proper,,,,,2016,2016,10.1039/c5sc02986d,"Sun, W.-B., Yan, P.-F., Jiang, S.-D., Wang, B.-W., Zhang, Y.-Q., Li, H.-F., Chen, P., Wang, Z.-M. & Gao, S. 2016 High symmetry or low symmetry, that is the question – high performance Dy(iii) single-ion magnets by electrostatic potential design. Chemical Science 7, 684–691. (doi:10.1039/c5sc02986d)"
+2016_52,[Zn2(L1)2Dy(H2O)Br2][ZnBr4]0.5,Schiff Base,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,1536870.cif,Proper,Spherical capped square antiprism,2.115,4.2,0.895882,2016,2016,10.1039/c5sc02986d,"Sun, W.-B., Yan, P.-F., Jiang, S.-D., Wang, B.-W., Zhang, Y.-Q., Li, H.-F., Chen, P., Wang, Z.-M. & Gao, S. 2016 High symmetry or low symmetry, that is the question – high performance Dy(iii) single-ion magnets by electrostatic potential design. Chemical Science 7, 684–691. (doi:10.1039/c5sc02986d)"
+2016_52,([Zn2(L2)2DyCl3]·2H2O,Schiff Base,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,1536871.cif,Proper,Muffin,3.282,-5.0,1.12625,2016,2016,10.1039/c5sc02986d,"Sun, W.-B., Yan, P.-F., Jiang, S.-D., Wang, B.-W., Zhang, Y.-Q., Li, H.-F., Chen, P., Wang, Z.-M. & Gao, S. 2016 High symmetry or low symmetry, that is the question – high performance Dy(iii) single-ion magnets by electrostatic potential design. Chemical Science 7, 684–691. (doi:10.1039/c5sc02986d)"
+2016_53,Dy[N(SiMe3)2]3ClLi(THF)3,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,4.0,4.0,4347144.cif,Proper,Others,0.515,,,2016,2016,10.1021/acs.inorgchem.5b02792,"Zhang, P., Jung, J., Zhang, L., Tang, J. & Le Guennic, B. 2016 Elucidating the Magnetic Anisotropy and Relaxation Dynamics of Low-Coordinate Lanthanide Compounds. Inorganic Chemistry 55, 1905–1911. (doi:10.1021/acs.inorgchem.5b02792)"
+2016_53,Er[N(SiMe3)2]3ClLi(THF)3,Other Families,0.0,Er3+,Prolate,Kramers,100.0,4.0,4.0,4347145.cif,Proper,Others,0.423,,,2016,2016,10.1021/acs.inorgchem.5b02792,"Zhang, P., Jung, J., Zhang, L., Tang, J. & Le Guennic, B. 2016 Elucidating the Magnetic Anisotropy and Relaxation Dynamics of Low-Coordinate Lanthanide Compounds. Inorganic Chemistry 55, 1905–1911. (doi:10.1021/acs.inorgchem.5b02792)"
+2016_54,[DyLz2(o-vanilin)2]·Br·solvent,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1542448.cif,Proper,Square antiprism,1.018,-4.100000000000001,1.1033405,2016,2016,10.1039/c5sc04510j,"Wu, J., Jung, J., Zhang, P., Zhang, H., Tang, J. & Le Guennic, B. 2016 Cis–trans isomerism modulates the magnetic relaxation of dysprosium single-molecule magnets. Chemical Science 7, 3632–3639. (doi:10.1039/c5sc04510j)"
+2016_54,[DyLz2(o-vanilin)2]·NO3·solvent,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1542449.cif,Proper,Square antiprism,0.855,-3.9,1.0982605,2016,2016,10.1039/c5sc04510j,"Wu, J., Jung, J., Zhang, P., Zhang, H., Tang, J. & Le Guennic, B. 2016 Cis–trans isomerism modulates the magnetic relaxation of dysprosium single-molecule magnets. Chemical Science 7, 3632–3639. (doi:10.1039/c5sc04510j)"
+2016_54,[DyLz2(o-vanilin)2]·NO3·solvent,Other Families,0.0,Dy3+,Oblate,Kramers,66.6666666666667,8.0,4.0,,Isostructural,,,,,2016,2016,10.1039/c5sc04510j,"Wu, J., Jung, J., Zhang, P., Zhang, H., Tang, J. & Le Guennic, B. 2016 Cis–trans isomerism modulates the magnetic relaxation of dysprosium single-molecule magnets. Chemical Science 7, 3632–3639. (doi:10.1039/c5sc04510j)"
+2016_54,[DyLz2(o-vanilin)2]·NO3·solvent,Other Families,0.0,Dy3+,Oblate,Kramers,7.57575757575758,8.0,4.0,,Isostructural,,,,,2016,2016,10.1039/c5sc04510j,"Wu, J., Jung, J., Zhang, P., Zhang, H., Tang, J. & Le Guennic, B. 2016 Cis–trans isomerism modulates the magnetic relaxation of dysprosium single-molecule magnets. Chemical Science 7, 3632–3639. (doi:10.1039/c5sc04510j)"
+2016_54,[DyLz2(o-vanilin)2]·NO3·solvent,Other Families,0.0,Dy3+,Oblate,Kramers,2.5,,,,Isostructural,,,,,2016,2016,10.1039/c5sc04510j,"Wu, J., Jung, J., Zhang, P., Zhang, H., Tang, J. & Le Guennic, B. 2016 Cis–trans isomerism modulates the magnetic relaxation of dysprosium single-molecule magnets. Chemical Science 7, 3632–3639. (doi:10.1039/c5sc04510j)"
+2016_54,[DyLz2(o-vanilin)2]·CF3SO3·solvent,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1542450.cif,Proper,Square antiprism,0.7,-3.4,1.085578,2016,2016,10.1039/c5sc04510j,"Wu, J., Jung, J., Zhang, P., Zhang, H., Tang, J. & Le Guennic, B. 2016 Cis–trans isomerism modulates the magnetic relaxation of dysprosium single-molecule magnets. Chemical Science 7, 3632–3639. (doi:10.1039/c5sc04510j)"
+2016_55,[Na2Dy2(8-mCND)8(CH3OH)(Me2CO)][Me2CO]0.5,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1543310.cif,Proper,Triangular dodecahedron,0.993,4.7,0.8836045,2016,2016,10.1039/c6sc01157h,"Bi, Y. et al. 2016 Thermostability and photoluminescence of Dy(iii) single-molecule magnets under a magnetic field. Chem. Sci. 7, 5020–5031. (doi:10.1039/c6sc01157h)"
+2016_55,[KDy2(8-mCND)4(CH3OH)(Me2CO)]2[Me2CO]2,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1543311.cif,Proper,Triangular dodecahedron,1.218,4.100000000000001,0.8983405,2016,2016,10.1039/c6sc01157h,"Bi, Y. et al. 2016 Thermostability and photoluminescence of Dy(iii) single-molecule magnets under a magnetic field. Chem. Sci. 7, 5020–5031. (doi:10.1039/c6sc01157h)"
+2016_55,[RbDy2(8-mCND)4(CH3OH)(Me2CO)]2[Me2CO]2,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1543312.cif,Proper,Triangular dodecahedron,1.191,4.3,0.8934245000000001,2016,2016,10.1039/c6sc01157h,"Bi, Y. et al. 2016 Thermostability and photoluminescence of Dy(iii) single-molecule magnets under a magnetic field. Chem. Sci. 7, 5020–5031. (doi:10.1039/c6sc01157h)"
+2016_55,[CsDy2(8-mCND)4(CH3OH)(Me2CO)]2[Me2CO]2,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1543313.cif,Proper,Triangular dodecahedron,1.244,4.2,0.895882,2016,2016,10.1039/c6sc01157h,"Bi, Y. et al. 2016 Thermostability and photoluminescence of Dy(iii) single-molecule magnets under a magnetic field. Chem. Sci. 7, 5020–5031. (doi:10.1039/c6sc01157h)"
+2016_55,{DyNa}sub,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1543314.cif,Isostructural,Triangular dodecahedron,0.724,5.5,0.8640125,2016,2016,10.1039/c6sc01157h,"Bi, Y. et al. 2016 Thermostability and photoluminescence of Dy(iii) single-molecule magnets under a magnetic field. Chem. Sci. 7, 5020–5031. (doi:10.1039/c6sc01157h)"
+2016_55,[K2Dy2(8-mCND)8H2O)0.5]2,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,Isostructural,,,,,2016,2016,10.1039/c6sc01157h,"Bi, Y. et al. 2016 Thermostability and photoluminescence of Dy(iii) single-molecule magnets under a magnetic field. Chem. Sci. 7, 5020–5031. (doi:10.1039/c6sc01157h)"
+2016_55,[Rb2Dy2(8-mCND)8H2O)0.5]2,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,Isostructural,,,,,2016,2016,10.1039/c6sc01157h,"Bi, Y. et al. 2016 Thermostability and photoluminescence of Dy(iii) single-molecule magnets under a magnetic field. Chem. Sci. 7, 5020–5031. (doi:10.1039/c6sc01157h)"
+2016_55,[Cs2Dy2(8-mCND)8H2O)0.5]2,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,Proper,,,,,2016,2016,10.1039/c6sc01157h,"Bi, Y. et al. 2016 Thermostability and photoluminescence of Dy(iii) single-molecule magnets under a magnetic field. Chem. Sci. 7, 5020–5031. (doi:10.1039/c6sc01157h)"
+2016_56,[L2Dy(H2O)5][I]3·L2·(H2O),P=O,,Dy3+,Oblate,Kramers,100.0,7.0,7.0,1543092.cif,Proper,Pentagonal bipyramid,0.518,3.1,0.9229805,2016,2016,10.1039/c6sc00279j,"Gupta, S. K., Rajeshkumar, T., Rajaraman, G. & Murugavel, R. 2016 An air-stable Dy(iii) single-ion magnet with high anisotropy barrier and blocking temperature. Chemical Science 7, 5181–5191. (doi:10.1039/c6sc00279j)"
+2016_56,[L2Er(H2O)5][I]3·L2·(H2O),P=O,,Er3+,Prolate,Kramers,100.0,7.0,7.0,1543093.cif,Proper,Pentagonal bipyramid,0.509,2.8,0.930392,2016,2016,10.1039/c6sc00279j,"Gupta, S. K., Rajeshkumar, T., Rajaraman, G. & Murugavel, R. 2016 An air-stable Dy(iii) single-ion magnet with high anisotropy barrier and blocking temperature. Chemical Science 7, 5181–5191. (doi:10.1039/c6sc00279j)"
+2016_56,[L2Dy0.25Y0.75(H2O)5][I]3·L2·(H2O)],P=O,,Dy3+,Oblate,Kramers,25.0,7.0,7.0,,Isostructural,,,,,2016,2016,10.1039/c6sc00279j,"Gupta, S. K., Rajeshkumar, T., Rajaraman, G. & Murugavel, R. 2016 An air-stable Dy(iii) single-ion magnet with high anisotropy barrier and blocking temperature. Chemical Science 7, 5181–5191. (doi:10.1039/c6sc00279j)"
+2016_57,[Er-TEMPO2],Radical,,Er3+,Prolate,Kramers,100.0,8.0,5.0,1488112.cif,Proper,Triangular dodecahedron,0.027,0.3,0.9925045,2016,2016,10.1016/j.cplett.2016.09.033,"Karbowiak, M., Rudowicz, C., Nakamura, T., Murakami, R. & Ishida, T. 2016 Spectroscopic and magnetic studies of erbium(III)-TEMPO complex as a potential single-molecule magnet: Interplay of the crystal-field and exchange coupling effects. Chemical Physics Letters 662, 163–168. (doi:10.1016/j.cplett.2016.09.033)"
+2016_57,[Gd-TEMPO2],Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,Proper,,,,,2016,2016,10.1016/j.cplett.2016.09.033,"Karbowiak, M., Rudowicz, C., Nakamura, T., Murakami, R. & Ishida, T. 2016 Spectroscopic and magnetic studies of erbium(III)-TEMPO complex as a potential single-molecule magnet: Interplay of the crystal-field and exchange coupling effects. Chemical Physics Letters 662, 163–168. (doi:10.1016/j.cplett.2016.09.033)"
+2016_58,[Dy2(hfac)6(L1)]·C6H14,Diketonate,,Dy3+,Oblate,Kramers,100.0,9.0,4.0,1430140.cif,Proper,Spherical tricapped trigonal prism,0.65,4.8,0.881152,2016,2016,10.1002/ejic.201501145,"Feng, M., Speed, S., Pointillart, F., Lefeuvre, B., Le Guennic, B., Golhen, S., Cador, O. & Ouahab, L. 2015 Dysprosium- and Ytterbium-Based Complexes Involving Tetrathiafulvalene Derivatives Functionalised with 2,2′-Bipyridine or 2,6-Di(pyrazol-1-yl)-4-pyridine. European Journal of Inorganic Chemistry 2016, 2039–2050. (doi:10.1002/ejic.201501145)"
+2016_58,[Dy(hfac)3(L2)]·CH2Cl2,Diketonate,,Dy3+,Oblate,Kramers,100.0,9.0,4.0,1430141.cif,Proper,Spherical capped square antiprism,0.447,-1.3,1.0325845,2016,2016,10.1002/ejic.201501145,"Feng, M., Speed, S., Pointillart, F., Lefeuvre, B., Le Guennic, B., Golhen, S., Cador, O. & Ouahab, L. 2015 Dysprosium- and Ytterbium-Based Complexes Involving Tetrathiafulvalene Derivatives Functionalised with 2,2′-Bipyridine or 2,6-Di(pyrazol-1-yl)-4-pyridine. European Journal of Inorganic Chemistry 2016, 2039–2050. (doi:10.1002/ejic.201501145)"
+2016_58,[Yb(hfac)3(L2)]·CH2Cl2,Diketonate,,Yb3+,Prolate,Kramers,100.0,9.0,4.0,1430142.cif,Proper,Spherical tricapped trigonal prism,0.536,5.1,0.8738005,2016,2016,10.1002/ejic.201501145,"Feng, M., Speed, S., Pointillart, F., Lefeuvre, B., Le Guennic, B., Golhen, S., Cador, O. & Ouahab, L. 2015 Dysprosium- and Ytterbium-Based Complexes Involving Tetrathiafulvalene Derivatives Functionalised with 2,2′-Bipyridine or 2,6-Di(pyrazol-1-yl)-4-pyridine. European Journal of Inorganic Chemistry 2016, 2039–2050. (doi:10.1002/ejic.201501145)"
+2016_58,[Yb(hfac)3(L3)],Diketonate,,Yb3+,Prolate,Kramers,100.0,8.0,4.0,1430144.cif,Proper,Square antiprism,0.606,-2.7,1.0678645,2016,2016,10.1002/ejic.201501145,"Feng, M., Speed, S., Pointillart, F., Lefeuvre, B., Le Guennic, B., Golhen, S., Cador, O. & Ouahab, L. 2015 Dysprosium- and Ytterbium-Based Complexes Involving Tetrathiafulvalene Derivatives Functionalised with 2,2′-Bipyridine or 2,6-Di(pyrazol-1-yl)-4-pyridine. European Journal of Inorganic Chemistry 2016, 2039–2050. (doi:10.1002/ejic.201501145)"
+2016_59,[Dy(LOMe)2(H2O)2](PF6),TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4347631.cif,Proper,Square antiprism,0.829,-4.0,1.1008,2016,2016,10.1021/acs.inorgchem.6b00410,"Lim, K. S., Baldoví, J. J., Lee, W. R., Song, J. H., Yoon, S. W., Suh, B. J., Coronado, E., Gaita-Ariño, A. & Hong, C. S. 2016 Switching of Slow Magnetic Relaxation Dynamics in Mononuclear Dysprosium(III) Compounds with Charge Density. Inorganic Chemistry 55, 5398–5404. (doi:10.1021/acs.inorgchem.6b00410)"
+2016_59,Dy(LOMe)2(NO3),TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,4347634.cif,Proper,Square antiprism,1.279,1.4,0.965098,2016,2016,10.1021/acs.inorgchem.6b00410,"Lim, K. S., Baldoví, J. J., Lee, W. R., Song, J. H., Yoon, S. W., Suh, B. J., Coronado, E., Gaita-Ariño, A. & Hong, C. S. 2016 Switching of Slow Magnetic Relaxation Dynamics in Mononuclear Dysprosium(III) Compounds with Charge Density. Inorganic Chemistry 55, 5398–5404. (doi:10.1021/acs.inorgchem.6b00410)"
+2016_59,[Dy(LOMe)2(H2O)2](PF6),TM near Ln,,Dy3+,Oblate,Kramers,2.0,8.0,4.0,,Isostructural,,,,,2016,2016,10.1021/acs.inorgchem.6b00410,"Lim, K. S., Baldoví, J. J., Lee, W. R., Song, J. H., Yoon, S. W., Suh, B. J., Coronado, E., Gaita-Ariño, A. & Hong, C. S. 2016 Switching of Slow Magnetic Relaxation Dynamics in Mononuclear Dysprosium(III) Compounds with Charge Density. Inorganic Chemistry 55, 5398–5404. (doi:10.1021/acs.inorgchem.6b00410)"
+2016_59,Dy(LOMe)2(NO3),TM near Ln,,Dy3+,Oblate,Kramers,4.0,8.0,3.0,,Isostructural,,,,,2016,2016,10.1021/acs.inorgchem.6b00410,"Lim, K. S., Baldoví, J. J., Lee, W. R., Song, J. H., Yoon, S. W., Suh, B. J., Coronado, E., Gaita-Ariño, A. & Hong, C. S. 2016 Switching of Slow Magnetic Relaxation Dynamics in Mononuclear Dysprosium(III) Compounds with Charge Density. Inorganic Chemistry 55, 5398–5404. (doi:10.1021/acs.inorgchem.6b00410)"
+2016_60,[Gd(hfac)3(NIT-Ph2OEt)2],Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,,,,,,2016,2016,10.1021/acs.cgd.6b01369,"Li, C., Sun, J., Yang, M., Sun, G., Guo, J., Ma, Y. & Li, L. 2016 From Monomeric Species to One-Dimensional Chain: Enhancing Slow Magnetic Relaxation through Coupling Mononuclear Fragments in Ln-rad System. Crystal Growth & Design 16, 7155–7162. (doi:10.1021/acs.cgd.6b01369)"
+2016_60,[Tb(hfac)3(NIT-Ph2OEt)2],Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,,,,,,,2016,2016,10.1021/acs.cgd.6b01369,"Li, C., Sun, J., Yang, M., Sun, G., Guo, J., Ma, Y. & Li, L. 2016 From Monomeric Species to One-Dimensional Chain: Enhancing Slow Magnetic Relaxation through Coupling Mononuclear Fragments in Ln-rad System. Crystal Growth & Design 16, 7155–7162. (doi:10.1021/acs.cgd.6b01369)"
+2016_60,[Gd(hfac)3(NITPh2OEt)]n,Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,,,,,,2016,2016,10.1021/acs.cgd.6b01369,"Li, C., Sun, J., Yang, M., Sun, G., Guo, J., Ma, Y. & Li, L. 2016 From Monomeric Species to One-Dimensional Chain: Enhancing Slow Magnetic Relaxation through Coupling Mononuclear Fragments in Ln-rad System. Crystal Growth & Design 16, 7155–7162. (doi:10.1021/acs.cgd.6b01369)"
+2016_60,[Tb(hfac)3(NITPh2OEt)]n,Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,,,,,,,2016,2016,10.1021/acs.cgd.6b01369,"Li, C., Sun, J., Yang, M., Sun, G., Guo, J., Ma, Y. & Li, L. 2016 From Monomeric Species to One-Dimensional Chain: Enhancing Slow Magnetic Relaxation through Coupling Mononuclear Fragments in Ln-rad System. Crystal Growth & Design 16, 7155–7162. (doi:10.1021/acs.cgd.6b01369)"
+2016_61,Dyfod3bpy,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7224101.cif,Proper,Square antiprism,0.656,-3.5,1.0881125,2016,2016,10.1039/c5ce02571k,"Gao, C., Yang, Q., Wang, B.-W., Wang, Z.-M. & Gao, S. 2016 Evaporable lanthanide single-ion magnet. CrystEngComm 18, 4165–4171. (doi:10.1039/c5ce02571k)"
+2016_61,Dyfod3phen,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7224102.cif,Proper,Square antiprism,0.474,-2.8,1.070392,2016,2016,10.1039/c5ce02571k,"Gao, C., Yang, Q., Wang, B.-W., Wang, Z.-M. & Gao, S. 2016 Evaporable lanthanide single-ion magnet. CrystEngComm 18, 4165–4171. (doi:10.1039/c5ce02571k)"
+2016_62,(Et3NH)[Tb(3-NO2-salen)2]·0.5H2O·CH3OH,Schiff Base,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,7037819.cif,Proper,Triangular dodecahedron,1.058,-0.5,1.0125125,2016,2016,10.1039/c5dt03897a,"Ren, M., Xu, Z.-L., Bao, S.-S., Wang, T.-T., Zheng, Z.-H., Ferreira, R. A. S., Zheng, L.-M. & Carlos, L. D. 2016 Lanthanide salen-type complexes exhibiting single ion magnet and photoluminescent properties. Dalton Transactions 45, 2974–2982. (doi:10.1039/c5dt03897a)"
+2016_62,(Et3NH)[Dy(3-NO2-salen)2]·H2O,Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,7037820.cif,Proper,Triangular dodecahedron,0.981,-0.7000000000000001,1.0175245,2016,2016,10.1039/c5dt03897a,"Ren, M., Xu, Z.-L., Bao, S.-S., Wang, T.-T., Zheng, Z.-H., Ferreira, R. A. S., Zheng, L.-M. & Carlos, L. D. 2016 Lanthanide salen-type complexes exhibiting single ion magnet and photoluminescent properties. Dalton Transactions 45, 2974–2982. (doi:10.1039/c5dt03897a)"
+2016_62,(Et3NH)[Ho(3-NO2-salen)2]·0.5H2O·CH3OH,Schiff Base,,Ho3+,Oblate,Non-Kramers,100.0,8.0,2.0,7037821.cif,Proper,Triangular dodecahedron,0.954,-0.7000000000000001,1.0175245,2016,2016,10.1039/c5dt03897a,"Ren, M., Xu, Z.-L., Bao, S.-S., Wang, T.-T., Zheng, Z.-H., Ferreira, R. A. S., Zheng, L.-M. & Carlos, L. D. 2016 Lanthanide salen-type complexes exhibiting single ion magnet and photoluminescent properties. Dalton Transactions 45, 2974–2982. (doi:10.1039/c5dt03897a)"
+2016_62,(Et3NH)[Er(3-NO2-salen)2]·1.5H2O,Schiff Base,,Er3+,Prolate,Kramers,100.0,8.0,2.0,7037822.cif,Proper,Triangular dodecahedron,0.93,-0.7000000000000001,1.0175245,2016,2016,10.1039/c5dt03897a,"Ren, M., Xu, Z.-L., Bao, S.-S., Wang, T.-T., Zheng, Z.-H., Ferreira, R. A. S., Zheng, L.-M. & Carlos, L. D. 2016 Lanthanide salen-type complexes exhibiting single ion magnet and photoluminescent properties. Dalton Transactions 45, 2974–2982. (doi:10.1039/c5dt03897a)"
+2016_62,(Et3NH)[Yb(3-NO2-salen)2],Schiff Base,,Yb3+,Prolate,Kramers,100.0,8.0,2.0,,Isostructural,,,,,2016,2016,10.1039/c5dt03897a,"Ren, M., Xu, Z.-L., Bao, S.-S., Wang, T.-T., Zheng, Z.-H., Ferreira, R. A. S., Zheng, L.-M. & Carlos, L. D. 2016 Lanthanide salen-type complexes exhibiting single ion magnet and photoluminescent properties. Dalton Transactions 45, 2974–2982. (doi:10.1039/c5dt03897a)"
+2016_63,[Dy(Phen)(tfmb)3],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4347290.cif,Proper,Triangular dodecahedron,0.824,2.4,0.940288,2016,2016,10.1021/acs.inorgchem.5b02971,"Zhang, S. et al. 2016 Magnetization Dynamics Changes of Dysprosium(III) Single-Ion Magnets Associated with Guest Molecules. Inorganic Chemistry 55, 3865–3871. (doi:10.1021/acs.inorgchem.5b02971)"
+2016_63,"[Dy(Phen)(tfmb)3]·0.5(1,4-dioxane)",Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4347289.cif,Proper,Square antiprism,0.471,-2.3,1.0577645,2016,2016,10.1021/acs.inorgchem.5b02971,"Zhang, S. et al. 2016 Magnetization Dynamics Changes of Dysprosium(III) Single-Ion Magnets Associated with Guest Molecules. Inorganic Chemistry 55, 3865–3871. (doi:10.1021/acs.inorgchem.5b02971)"
+2016_64,[Dy(5-NO2-Phen)(tfmb)3],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7038396.cif,Proper,Square antiprism,0.556,-3.8,1.095722,2016,2016,10.1039/c6dt00219f,"Zhang, S. et al. 2016 Dysprosium(iii) complexes with a square-antiprism configuration featuring mononuclear single-molecule magnetic behaviours based on different β-diketonate ligands and auxiliary ligands. Dalton Transactions 45, 5310–5320. (doi:10.1039/c6dt00219f)"
+2016_64,[Dy(DMF)2(tffb)3],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,7038398.cif,Proper,Square antiprism,0.693,-4.3,1.1084245,2016,2016,10.1039/c6dt00219f,"Zhang, S. et al. 2016 Dysprosium(iii) complexes with a square-antiprism configuration featuring mononuclear single-molecule magnetic behaviours based on different β-diketonate ligands and auxiliary ligands. Dalton Transactions 45, 5310–5320. (doi:10.1039/c6dt00219f)"
+2016_64,"[Dy(bpy)2(tfnb)3]·0.5(1,4-dioxane)",Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,7038397.cif,Proper,Square antiprism,0.436,-2.8,1.070392,2016,2016,10.1039/c6dt00219f,"Zhang, S. et al. 2016 Dysprosium(iii) complexes with a square-antiprism configuration featuring mononuclear single-molecule magnetic behaviours based on different β-diketonate ligands and auxiliary ligands. Dalton Transactions 45, 5310–5320. (doi:10.1039/c6dt00219f)"
+2016_65,[Pr(fca)3(bpy)]·MeC6H5,Diketonate,,Pr3+,Oblate,Non-Kramers,100.0,8.0,4.0,7038517.cif,Proper,Square antiprism,1.002,-4.6,1.116058,2016,2016,10.1039/c5dt04948b,"Koroteev, P. S., Dobrokhotova, Z. V., Ilyukhin, A. B., Efimov, N. N., Rouzières, M., Kiskin, M. A., Clérac, R. & Novotortsev, V. M. 2016 Synthesis, structure, and physical properties of new rare earth ferrocenoylacetonates. Dalton Transactions 45, 6405–6417. (doi:10.1039/c5dt04948b)"
+2016_65,[Gd(fca)3(bpy)]·MeC6H5,Diketonate,,Gd3+,Isotropic,Kramers,100.0,8.0,4.0,,Proper,,,,,2016,2016,10.1039/c5dt04948b,"Koroteev, P. S., Dobrokhotova, Z. V., Ilyukhin, A. B., Efimov, N. N., Rouzières, M., Kiskin, M. A., Clérac, R. & Novotortsev, V. M. 2016 Synthesis, structure, and physical properties of new rare earth ferrocenoylacetonates. Dalton Transactions 45, 6405–6417. (doi:10.1039/c5dt04948b)"
+2016_65,[Tb(fca)3(bpy)]·MeC6H5,Diketonate,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,7038511.cif,Proper,Square antiprism,0.897,-3.5,1.0881125,2016,2016,10.1039/c5dt04948b,"Koroteev, P. S., Dobrokhotova, Z. V., Ilyukhin, A. B., Efimov, N. N., Rouzières, M., Kiskin, M. A., Clérac, R. & Novotortsev, V. M. 2016 Synthesis, structure, and physical properties of new rare earth ferrocenoylacetonates. Dalton Transactions 45, 6405–6417. (doi:10.1039/c5dt04948b)"
+2016_65,[Dy(fca)3(bpy)]·MeC6H5,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7038512.cif,Proper,Square antiprism,0.888,-3.8,1.095722,2016,2016,10.1039/c5dt04948b,"Koroteev, P. S., Dobrokhotova, Z. V., Ilyukhin, A. B., Efimov, N. N., Rouzières, M., Kiskin, M. A., Clérac, R. & Novotortsev, V. M. 2016 Synthesis, structure, and physical properties of new rare earth ferrocenoylacetonates. Dalton Transactions 45, 6405–6417. (doi:10.1039/c5dt04948b)"
+2016_65,[Ho(fca)3(bpy)]·MeC6H5,Diketonate,,Ho3+,Oblate,Non-Kramers,100.0,8.0,4.0,7038513.cif,Proper,Square antiprism,0.854,-3.7,1.0931845,2016,2016,10.1039/c5dt04948b,"Koroteev, P. S., Dobrokhotova, Z. V., Ilyukhin, A. B., Efimov, N. N., Rouzières, M., Kiskin, M. A., Clérac, R. & Novotortsev, V. M. 2016 Synthesis, structure, and physical properties of new rare earth ferrocenoylacetonates. Dalton Transactions 45, 6405–6417. (doi:10.1039/c5dt04948b)"
+2016_66,[(dtc)3Dy(phen)],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7038954.cif,Proper,Biaugmented trigonal prism,1.741,-4.7,1.1186045,2016,2016,10.1039/c6dt01089j,"Liu, S.-S., Lang, K., Zhang, Y.-Q., Yang, Q., Wang, B.-W. & Gao, S. 2016 A distinct magnetic anisotropy enhancement in mononuclear dysprosium–sulfur complexes by controlling the Dy-ligand bond length. Dalton Transactions 45, 8149–8153. (doi:10.1039/c6dt01089j)"
+2016_66,[(dbm)2Dy(dtc)(phen)],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,5.0,7038955.cif,Proper,Square antiprism,1.61,-3.7,1.0931845,2016,2016,10.1039/c6dt01089j,"Liu, S.-S., Lang, K., Zhang, Y.-Q., Yang, Q., Wang, B.-W. & Gao, S. 2016 A distinct magnetic anisotropy enhancement in mononuclear dysprosium–sulfur complexes by controlling the Dy-ligand bond length. Dalton Transactions 45, 8149–8153. (doi:10.1039/c6dt01089j)"
+2016_67,Dy(EIFD)3(bpy)·CH3CN,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7039158.cif,Proper,Square antiprism,0.496,-2.3,1.0577645,2016,2016,10.1039/c6dt00442c,"Dong, Y., Yan, P., Zou, X., Yao, X., Hou, G. & Li, G. 2016 Auxiliary ligand field dominated single-molecule magnets of a series of indole-derivative β-diketone mononuclear Dy(iii) complexes. Dalton Transactions 45, 9148–9157. (doi:10.1039/c6dt00442c)"
+2016_67,Dy(EIFD)3(phen)·CH2Cl2,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7039159.cif,Proper,Square antiprism,0.987,-4.100000000000001,1.1033405,2016,2016,10.1039/c6dt00442c,"Dong, Y., Yan, P., Zou, X., Yao, X., Hou, G. & Li, G. 2016 Auxiliary ligand field dominated single-molecule magnets of a series of indole-derivative β-diketone mononuclear Dy(iii) complexes. Dalton Transactions 45, 9148–9157. (doi:10.1039/c6dt00442c)"
+2016_67,Dy(EIFD)3(dpq)·CH2Cl2,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7039160.cif,Proper,Square antiprism,0.652,-3.2,1.080512,2016,2016,10.1039/c6dt00442c,"Dong, Y., Yan, P., Zou, X., Yao, X., Hou, G. & Li, G. 2016 Auxiliary ligand field dominated single-molecule magnets of a series of indole-derivative β-diketone mononuclear Dy(iii) complexes. Dalton Transactions 45, 9148–9157. (doi:10.1039/c6dt00442c)"
+2016_67,Dy(EIFD)3(dppz)·2H2O,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7039161.cif,Proper,Square antiprism,0.952,-3.1,1.0779805,2016,2016,10.1039/c6dt00442c,"Dong, Y., Yan, P., Zou, X., Yao, X., Hou, G. & Li, G. 2016 Auxiliary ligand field dominated single-molecule magnets of a series of indole-derivative β-diketone mononuclear Dy(iii) complexes. Dalton Transactions 45, 9148–9157. (doi:10.1039/c6dt00442c)"
+2016_68,[(15C5)4Pc]Tb[(15C5)4Pc]Y(Pc),LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2016,2016,10.1039/c6dt00777e,"Holmberg, R. J., Polovkova, M. A., Martynov, A. G., Gorbunova, Y. G. & Murugesu, M. 2016 Impact of the coordination environment on the magnetic properties of single-molecule magnets based on homo- and hetero-dinuclear terbium(iii) heteroleptic tris(crownphthalocyaninate). Dalton Transactions 45, 9320–9327. (doi:10.1039/c6dt00777e)"
+2016_68,[(15C5)4Pc]Y[(15C5)4Pc]Tb(Pc),LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2016,2016,10.1039/c6dt00777e,"Holmberg, R. J., Polovkova, M. A., Martynov, A. G., Gorbunova, Y. G. & Murugesu, M. 2016 Impact of the coordination environment on the magnetic properties of single-molecule magnets based on homo- and hetero-dinuclear terbium(iii) heteroleptic tris(crownphthalocyaninate). Dalton Transactions 45, 9320–9327. (doi:10.1039/c6dt00777e)"
+2016_69,[Tb(L)(H2O)(NO3)](NO3)2,Other Families,0.0,Tb3+,Oblate,Non-Kramers,100.0,9.0,3.0,7040569.cif,Proper,Muffin,1.044,0.1,0.9975005,2016,2016,10.1039/c6dt02537d,"Antal, P., Drahoš, B., Herchel, R. & Trávníček, Z. 2016 Muffin-like lanthanide complexes with an N5O2-donor macrocyclic ligand showing field-induced single-molecule magnet behaviour. Dalton Transactions 45, 15114–15121. (doi:10.1039/c6dt02537d)"
+2016_69,[Dy(L)(H2O)(NO3)](NO3)2,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,3.0,7040568.cif,Proper,Muffin,1.043,0.1,0.9975005,2016,2016,10.1039/c6dt02537d,"Antal, P., Drahoš, B., Herchel, R. & Trávníček, Z. 2016 Muffin-like lanthanide complexes with an N5O2-donor macrocyclic ligand showing field-induced single-molecule magnet behaviour. Dalton Transactions 45, 15114–15121. (doi:10.1039/c6dt02537d)"
+2016_69,[Er(L)(H2O)(NO3)](NO3)2,Other Families,0.0,Er3+,Prolate,Kramers,100.0,9.0,3.0,,Isostructural,,,,,2016,2016,10.1039/c6dt02537d,"Antal, P., Drahoš, B., Herchel, R. & Trávníček, Z. 2016 Muffin-like lanthanide complexes with an N5O2-donor macrocyclic ligand showing field-induced single-molecule magnet behaviour. Dalton Transactions 45, 15114–15121. (doi:10.1039/c6dt02537d)"
+2016_70,[DyL(H2O)3]·3H2O·0.75DMF,Other Families,100000.0,Dy3+,Oblate,Kramers,100.0,8.0,7.0,4349090.cif,Proper,Square antiprism,1.805,-0.2,1.005002,2016,2016,10.1021/acs.inorgchem.6b01899,"Gao, R.-C., Guo, F.-S., Bai, N.-N., Wu, Y.-L., Yang, F., Liang, J.-Y., Li, Z.-J. & Wang, Y.-Y. 2016 Two 3D Isostructural Ln(III)-MOFs: Displaying the Slow Magnetic Relaxation and Luminescence Properties in Detection of Nitrobenzene and Cr2O72–. Inorganic Chemistry 55, 11323–11330. (doi:10.1021/acs.inorgchem.6b01899)"
+2016_71,[Ln(Hnic)(nic)2(NO3)]n,Other Families,100000.0,Dy3+,Oblate,Kramers,15.0,8.0,7.0,1473784.cif,Isostructural,Triangular dodecahedron,1.83,-2.5,1.0628125,2016,2016,10.1021/acs.inorgchem.6b01010,"Mihalcea, I. et al. 2016 Spin Helicity in Chiral Lanthanide Chains. Inorganic Chemistry 55, 10068–10074. (doi:10.1021/acs.inorgchem.6b01010)"
+2017_04,Dy(hfac)3(1-MeIm)2,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,7227425.cif,Proper,Square antiprism,0.395,-2.3,1.0577645,2017,2017,10.1039/c6ra25038f,"Yao, B., Gu, B., Su, M., Li, G., Ma, Y., Li, L., Wang, Q., Cheng, P. & Zhang, X. 2017 Single-molecule magnet behavior in a mononuclear dysprosium(iii) complex with 1-methylimidazole. RSC Advances 7, 2766–2772. (doi:10.1039/c6ra25038f)"
+2017_04,Tb(hfac)3(1-MeIm)2,Diketonate,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,7227424.cif,Proper,Square antiprism,0.388,-2.1,1.0527205,2017,2017,10.1039/c6ra25038f,"Yao, B., Gu, B., Su, M., Li, G., Ma, Y., Li, L., Wang, Q., Cheng, P. & Zhang, X. 2017 Single-molecule magnet behavior in a mononuclear dysprosium(iii) complex with 1-methylimidazole. RSC Advances 7, 2766–2772. (doi:10.1039/c6ra25038f)"
+2017_04,Ho(hfac)3(1-MeIm)2,Diketonate,,Ho3+,Oblate,Non-Kramers,100.0,8.0,5.0,7227426.cif,Proper,Square antiprism,0.372,-2.3,1.0577645,2017,2017,10.1039/c6ra25038f,"Yao, B., Gu, B., Su, M., Li, G., Ma, Y., Li, L., Wang, Q., Cheng, P. & Zhang, X. 2017 Single-molecule magnet behavior in a mononuclear dysprosium(iii) complex with 1-methylimidazole. RSC Advances 7, 2766–2772. (doi:10.1039/c6ra25038f)"
+2017_07, [Pr(NO3)3](18-crown-6),Other Families,0.0,Pr3+,Oblate,Non-Kramers,100.0,9.0,4.0,4344985.cif,Proper,Others,8.119,,,2017,2017,10.1021/acs.inorgchem.6b01764,"Wada, H., Ooka, S., Yamamura, T. & Kajiwara, T. 2016 Light Lanthanide Complexes with Crown Ether and Its Aza Derivative Which Show Slow Magnetic Relaxation Behaviors. Inorganic Chemistry 56, 147–155. (doi:10.1021/acs.inorgchem.6b01764)"
+2017_07, [Nd(NO3)3](18-crown-6),Other Families,0.0,Nd3+,Oblate,Kramers,100.0,9.0,4.0,4344986.cif,Proper,Others,8.052,,,2017,2017,10.1021/acs.inorgchem.6b01764,"Wada, H., Ooka, S., Yamamura, T. & Kajiwara, T. 2016 Light Lanthanide Complexes with Crown Ether and Its Aza Derivative Which Show Slow Magnetic Relaxation Behaviors. Inorganic Chemistry 56, 147–155. (doi:10.1021/acs.inorgchem.6b01764)"
+2017_07,[Nd(NO3)3](18-crown-6),Other Families,0.0,Nd3+,Oblate,Kramers,100.0,9.0,4.0,,Proper,,,,,2017,2017,10.1021/acs.inorgchem.6b01764,"Wada, H., Ooka, S., Yamamura, T. & Kajiwara, T. 2016 Light Lanthanide Complexes with Crown Ether and Its Aza Derivative Which Show Slow Magnetic Relaxation Behaviors. Inorganic Chemistry 56, 147–155. (doi:10.1021/acs.inorgchem.6b01764)"
+2017_07,"[Pr(NO3)3](1,10-diaza-18-crown-6)",Other Families,0.0,Pr3+,Oblate,Non-Kramers,100.0,9.0,4.0,4344988.cif,Proper,Muffin,6.603,8.200000000000001,0.798362,2017,2017,10.1021/acs.inorgchem.6b01764,"Wada, H., Ooka, S., Yamamura, T. & Kajiwara, T. 2016 Light Lanthanide Complexes with Crown Ether and Its Aza Derivative Which Show Slow Magnetic Relaxation Behaviors. Inorganic Chemistry 56, 147–155. (doi:10.1021/acs.inorgchem.6b01764)"
+2017_07,"[Nd(NO3)3](1,10-diaza-18-crown-6)",Other Families,0.0,Nd3+,Oblate,Kramers,100.0,9.0,4.0,4344989.cif,Proper,Muffin,6.52,8.1,0.8007805,2017,2017,10.1021/acs.inorgchem.6b01764,"Wada, H., Ooka, S., Yamamura, T. & Kajiwara, T. 2016 Light Lanthanide Complexes with Crown Ether and Its Aza Derivative Which Show Slow Magnetic Relaxation Behaviors. Inorganic Chemistry 56, 147–155. (doi:10.1021/acs.inorgchem.6b01764)"
+2017_07,"[Nd(NO3)3](1,10-diaza-18-crown-6)",Other Families,0.0,Nd3+,Oblate,Kramers,100.0,9.0,4.0,,Proper,,,,,2017,2017,10.1021/acs.inorgchem.6b01764,"Wada, H., Ooka, S., Yamamura, T. & Kajiwara, T. 2016 Light Lanthanide Complexes with Crown Ether and Its Aza Derivative Which Show Slow Magnetic Relaxation Behaviors. Inorganic Chemistry 56, 147–155. (doi:10.1021/acs.inorgchem.6b01764)"
+2017_08,[Zn(μ-L)(μ-Oac)Pr(NO3)2],TM near Ln,,Pr3+,Oblate,Non-Kramers,100.0,9.0,4.0,7227174.cif,Isostructural,Spherical capped square antiprism,2.322,2.3,0.9427645,2017,2017,10.1039/C6CE02240E,"Zabala-Lekuona, A., Cepeda, J., Oyarzabal, I., Rodríguez-Diéguez, A., García, J. A., Seco, J. M. & Colacio, E. 2017 Rational design of triple-bridged dinuclear ZnIILnIII-based complexes: a structural, magnetic and luminescence study. CrystEngComm 19, 256–264. (doi:10.1039/c6ce02240e)"
+2017_08,[Zn(μ-L)(μ-Oac)Nd(NO3)2],TM near Ln,,Nd3+,Oblate,Kramers,100.0,9.0,4.0,,Isostructural,,,,,2017,2017,10.1039/C6CE02240E,"Zabala-Lekuona, A., Cepeda, J., Oyarzabal, I., Rodríguez-Diéguez, A., García, J. A., Seco, J. M. & Colacio, E. 2017 Rational design of triple-bridged dinuclear ZnIILnIII-based complexes: a structural, magnetic and luminescence study. CrystEngComm 19, 256–264. (doi:10.1039/c6ce02240e)"
+2017_08,[Zn(μ-L)(μ-Oac)Sm(NO3)2],TM near Ln,,Sm3+,Prolate,Kramers,100.0,9.0,4.0,,Isostructural,,,,,2017,2017,10.1039/C6CE02240E,"Zabala-Lekuona, A., Cepeda, J., Oyarzabal, I., Rodríguez-Diéguez, A., García, J. A., Seco, J. M. & Colacio, E. 2017 Rational design of triple-bridged dinuclear ZnIILnIII-based complexes: a structural, magnetic and luminescence study. CrystEngComm 19, 256–264. (doi:10.1039/c6ce02240e)"
+2017_08,[Zn(μ-L)(μ-Oac)Gd(NO3)2],TM near Ln,,Gd3+,Isotropic,Kramers,100.0,9.0,4.0,,Isostructural,,,,,2017,2017,10.1039/C6CE02240E,"Zabala-Lekuona, A., Cepeda, J., Oyarzabal, I., Rodríguez-Diéguez, A., García, J. A., Seco, J. M. & Colacio, E. 2017 Rational design of triple-bridged dinuclear ZnIILnIII-based complexes: a structural, magnetic and luminescence study. CrystEngComm 19, 256–264. (doi:10.1039/c6ce02240e)"
+2017_08,[Zn(μ-L)(μ-Oac)Tb(NO3)2],TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,9.0,4.0,,Isostructural,,,,,2017,2017,10.1039/C6CE02240E,"Zabala-Lekuona, A., Cepeda, J., Oyarzabal, I., Rodríguez-Diéguez, A., García, J. A., Seco, J. M. & Colacio, E. 2017 Rational design of triple-bridged dinuclear ZnIILnIII-based complexes: a structural, magnetic and luminescence study. CrystEngComm 19, 256–264. (doi:10.1039/c6ce02240e)"
+2017_08,[Zn(μ-L)(μ-Oac)Dy(NO3)2],TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,4.0,,Proper,,,,,2017,2017,10.1039/C6CE02240E,"Zabala-Lekuona, A., Cepeda, J., Oyarzabal, I., Rodríguez-Diéguez, A., García, J. A., Seco, J. M. & Colacio, E. 2017 Rational design of triple-bridged dinuclear ZnIILnIII-based complexes: a structural, magnetic and luminescence study. CrystEngComm 19, 256–264. (doi:10.1039/c6ce02240e)"
+2017_08,[Zn(μ-L)(μ-Oac)Ho(NO3)2],TM near Ln,,Ho3+,Oblate,Non-Kramers,100.0,9.0,4.0,,Isostructural,,,,,2017,2017,10.1039/C6CE02240E,"Zabala-Lekuona, A., Cepeda, J., Oyarzabal, I., Rodríguez-Diéguez, A., García, J. A., Seco, J. M. & Colacio, E. 2017 Rational design of triple-bridged dinuclear ZnIILnIII-based complexes: a structural, magnetic and luminescence study. CrystEngComm 19, 256–264. (doi:10.1039/c6ce02240e)"
+2017_08,[Zn(μ-L)(μ-Oac)Er(NO3)2],TM near Ln,,Er3+,Prolate,Kramers,100.0,9.0,4.0,7227175.cif,Proper,Muffin,2.677,-1.3,1.0325845,2017,2017,10.1039/C6CE02240E,"Zabala-Lekuona, A., Cepeda, J., Oyarzabal, I., Rodríguez-Diéguez, A., García, J. A., Seco, J. M. & Colacio, E. 2017 Rational design of triple-bridged dinuclear ZnIILnIII-based complexes: a structural, magnetic and luminescence study. CrystEngComm 19, 256–264. (doi:10.1039/c6ce02240e)"
+2017_08,[Zn(μ-L)(μ-Oac)Tm(NO3)2],TM near Ln,,Tm3+,Prolate,Non-Kramers,100.0,9.0,4.0,7227176.cif,Proper,Spherical capped square antiprism,2.197,2.4,0.940288,2017,2017,10.1039/C6CE02240E,"Zabala-Lekuona, A., Cepeda, J., Oyarzabal, I., Rodríguez-Diéguez, A., García, J. A., Seco, J. M. & Colacio, E. 2017 Rational design of triple-bridged dinuclear ZnIILnIII-based complexes: a structural, magnetic and luminescence study. CrystEngComm 19, 256–264. (doi:10.1039/c6ce02240e)"
+2017_08,[Zn(μ-L)(μ-Oac)Yb(NO3)2],TM near Ln,,Yb3+,Prolate,Kramers,100.0,9.0,4.0,,Isostructural,,,,,2017,2017,10.1039/C6CE02240E,"Zabala-Lekuona, A., Cepeda, J., Oyarzabal, I., Rodríguez-Diéguez, A., García, J. A., Seco, J. M. & Colacio, E. 2017 Rational design of triple-bridged dinuclear ZnIILnIII-based complexes: a structural, magnetic and luminescence study. CrystEngComm 19, 256–264. (doi:10.1039/c6ce02240e)"
+2017_09,[Er(Lome)2(H2O)2](PF6),TM near Ln,,Er3+,Prolate,Kramers,100.0,8.0,4.0,7041433.cif,Proper,Square antiprism,0.821,-4.0,1.1008,2017,2017,10.1039/c6dt04326g,"Lim, K. S., Kang, D. W., Song, J. H., Lee, H. G., Yang, M. & Hong, C. S. 2017 Slow relaxation dynamics of a mononuclear Er(iii) complex surrounded by a ligand environment with anisotropic charge density. Dalton Transactions 46, 739–744. (doi:10.1039/c6dt04326g)"
+2017_09,Er(Lome)2(NO3),TM near Ln,,Er3+,Prolate,Kramers,100.0,8.0,3.0,7041435.cif,Proper,Square antiprism,1.285,1.0,0.97505,2017,2017,10.1039/c6dt04326g,"Lim, K. S., Kang, D. W., Song, J. H., Lee, H. G., Yang, M. & Hong, C. S. 2017 Slow relaxation dynamics of a mononuclear Er(iii) complex surrounded by a ligand environment with anisotropic charge density. Dalton Transactions 46, 739–744. (doi:10.1039/c6dt04326g)"
+2017_09,Y0.94Er0.06(Lome)2(NO3),TM near Ln,,Er3+,Prolate,Kramers,6.0,8.0,3.0,,Isostructural,,,,,2017,2017,10.1039/c6dt04326g,"Lim, K. S., Kang, D. W., Song, J. H., Lee, H. G., Yang, M. & Hong, C. S. 2017 Slow relaxation dynamics of a mononuclear Er(iii) complex surrounded by a ligand environment with anisotropic charge density. Dalton Transactions 46, 739–744. (doi:10.1039/c6dt04326g)"
+2017_09,[Gd(Lome)2(H2O)2](PF6),TM near Ln,,Gd3+,Isotropic,Kramers,100.0,8.0,4.0,,Proper,,,,,2017,2017,10.1039/c6dt04326g,"Lim, K. S., Kang, D. W., Song, J. H., Lee, H. G., Yang, M. & Hong, C. S. 2017 Slow relaxation dynamics of a mononuclear Er(iii) complex surrounded by a ligand environment with anisotropic charge density. Dalton Transactions 46, 739–744. (doi:10.1039/c6dt04326g)"
+2017_09,Gd(Lome)2(NO3),TM near Ln,,Gd3+,Isotropic,Kramers,100.0,8.0,4.0,,Proper,,,,,2017,2017,10.1039/c6dt04326g,"Lim, K. S., Kang, D. W., Song, J. H., Lee, H. G., Yang, M. & Hong, C. S. 2017 Slow relaxation dynamics of a mononuclear Er(iii) complex surrounded by a ligand environment with anisotropic charge density. Dalton Transactions 46, 739–744. (doi:10.1039/c6dt04326g)"
+2017_10,[Zn2GdL2]·2ClO4·H2O,TM near Ln,,Gd3+,Isotropic,Kramers,100.0,8.0,2.0,,Proper,,,,,2017,2017,10.1039/c6dt04027f,"Wen, H.-R., Dong, P.-P., Liu, S.-J., Liao, J.-S., Liang, F.-Y. & Liu, C.-M. 2017 3d–4f heterometallic trinuclear complexes derived from amine-phenol tripodal ligands exhibiting magnetic and luminescent properties. Dalton Transactions 46, 1153–1162. (doi:10.1039/c6dt04027f)"
+2017_10,[Zn2DyL2]·2ClO4·H2O,TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,7041409.cif,Proper,Triangular dodecahedron,3.194,1.6,0.960128,2017,2017,10.1039/c6dt04027f,"Wen, H.-R., Dong, P.-P., Liu, S.-J., Liao, J.-S., Liang, F.-Y. & Liu, C.-M. 2017 3d–4f heterometallic trinuclear complexes derived from amine-phenol tripodal ligands exhibiting magnetic and luminescent properties. Dalton Transactions 46, 1153–1162. (doi:10.1039/c6dt04027f)"
+2017_11,[Dy(12-crown-4) (NO3)3],Crown Ether,,Dy3+,Oblate,Kramers,100.0,,4.0,7041528.cif,Proper,Others,3.041,,,2017,2017,10.1039/c6dt04353d,"Gao, F., Yang, F.-L., Feng, X., Xu, H., Sun, W., Liu, H. & Li, X.-L. 2017 Half-sandwich lanthanide crown ether complexes with the slow relaxation of magnetization and photoluminescence behaviors. Dalton Transactions 46, 1317–1323. (doi:10.1039/c6dt04353d)"
+2017_11,[Tb(12-crown-4) (NO3)3],Crown Ether,,Tb3+,Oblate,Non-Kramers,100.0,,4.0,7041526.cif,Proper,Others,3.074,,,2017,2017,10.1039/c6dt04353d,"Gao, F., Yang, F.-L., Feng, X., Xu, H., Sun, W., Liu, H. & Li, X.-L. 2017 Half-sandwich lanthanide crown ether complexes with the slow relaxation of magnetization and photoluminescence behaviors. Dalton Transactions 46, 1317–1323. (doi:10.1039/c6dt04353d)"
+2017_11,[Ho(12-crown-4) (NO3)3],Crown Ether,,Ho3+,Oblate,Non-Kramers,100.0,,4.0,7041529.cif,Proper,Others,2.98,,,2017,2017,10.1039/c6dt04353d,"Gao, F., Yang, F.-L., Feng, X., Xu, H., Sun, W., Liu, H. & Li, X.-L. 2017 Half-sandwich lanthanide crown ether complexes with the slow relaxation of magnetization and photoluminescence behaviors. Dalton Transactions 46, 1317–1323. (doi:10.1039/c6dt04353d)"
+2017_11,[Er(12-crown-4) (NO3)3],Crown Ether,,Er3+,Prolate,Kramers,100.0,,4.0,7041527.cif,Proper,Others,2.961,,,2017,2017,10.1039/c6dt04353d,"Gao, F., Yang, F.-L., Feng, X., Xu, H., Sun, W., Liu, H. & Li, X.-L. 2017 Half-sandwich lanthanide crown ether complexes with the slow relaxation of magnetization and photoluminescence behaviors. Dalton Transactions 46, 1317–1323. (doi:10.1039/c6dt04353d)"
+2017_12,(NNTBS)DyI(THF)2,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,5.0,4.0,,,,,,,2017,2017,10.1021/jacs.6b12374,"Harriman, K. L. M., Brosmer, J. L., Ungur, L., Diaconescu, P. L. & Murugesu, M. 2017 Pursuit of Record Breaking Energy Barriers: A Study of Magnetic Axiality in Diamide Ligated DyIII Single-Molecule Magnets. Journal of the American Chemical Society 139, 1420–1423. (doi:10.1021/jacs.6b12374)"
+2017_13,[Dy(tmhd)3]2(bptz),Radical,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7119436.cif,Proper,Square antiprism,0.931,-4.7,1.1186045,2017,2017,10.1039/c6cc09824j,"Dolinar, B. S., Gómez-Coca, S., Alexandropoulos, D. I. & Dunbar, K. R. 2017 An air stable radical-bridged dysprosium single molecule magnet and its neutral counterpart: redox switching of magnetic relaxation dynamics. Chemical Communications 53, 2283–2286. (doi:10.1039/c6cc09824j)"
+2017_13,{Cp2Co}{[Dy(tmhd)3]2(bptz)},Radical,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7119437.cif,Proper,Square antiprism,0.717,-4.6,1.116058,2017,2017,10.1039/c6cc09824j,"Dolinar, B. S., Gómez-Coca, S., Alexandropoulos, D. I. & Dunbar, K. R. 2017 An air stable radical-bridged dysprosium single molecule magnet and its neutral counterpart: redox switching of magnetic relaxation dynamics. Chemical Communications 53, 2283–2286. (doi:10.1039/c6cc09824j)"
+2017_15,[Pr(hfac)3(NITIn)(H2O)]·XCH2Cl2·YC7H16,Radical,,Pr3+,Oblate,Non-Kramers,100.0,9.0,5.0,1490879.cif,Proper,Muffin,0.801,-1.6,1.040128,2017,2017,10.1016/j.ica.2016.11.002,"Li, X., Li, T., Shi, X. J. & Tian, L. 2017 A family of 2p-4f complexes based on indazole radical: Syntheses, structures and magnetic properties. Inorganica Chimica Acta 456, 216–223. (doi:10.1016/j.ica.2016.11.002)"
+2017_15,[Sm(hfac)3(NITIn)(H2O)]·XCH2Cl2·YC7H16,Radical,,Sm3+,Prolate,Kramers,100.0,9.0,5.0,1490880.cif,Proper,Muffin,0.77,-1.6,1.040128,2017,2017,10.1016/j.ica.2016.11.002,"Li, X., Li, T., Shi, X. J. & Tian, L. 2017 A family of 2p-4f complexes based on indazole radical: Syntheses, structures and magnetic properties. Inorganica Chimica Acta 456, 216–223. (doi:10.1016/j.ica.2016.11.002)"
+2017_15,[Gd(hfac)3(NITIn)(H2O)]·XCH2Cl2·YC7H16,Radical,,Gd3+,Isotropic,Kramers,100.0,9.0,5.0,,Proper,,,,,2017,2017,10.1016/j.ica.2016.11.002,"Li, X., Li, T., Shi, X. J. & Tian, L. 2017 A family of 2p-4f complexes based on indazole radical: Syntheses, structures and magnetic properties. Inorganica Chimica Acta 456, 216–223. (doi:10.1016/j.ica.2016.11.002)"
+2017_15,[Tb(hfac)3(NITIn)],Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,1490882.cif,Proper,Square antiprism,0.978,-2.5,1.0628125,2017,2017,10.1016/j.ica.2016.11.002,"Li, X., Li, T., Shi, X. J. & Tian, L. 2017 A family of 2p-4f complexes based on indazole radical: Syntheses, structures and magnetic properties. Inorganica Chimica Acta 456, 216–223. (doi:10.1016/j.ica.2016.11.002)"
+2017_15,[Dy(hfac)3(NITIn)],Radical,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1490883.cif,Proper,Square antiprism,0.981,-2.6,1.065338,2017,2017,10.1016/j.ica.2016.11.002,"Li, X., Li, T., Shi, X. J. & Tian, L. 2017 A family of 2p-4f complexes based on indazole radical: Syntheses, structures and magnetic properties. Inorganica Chimica Acta 456, 216–223. (doi:10.1016/j.ica.2016.11.002)"
+2017_16,"{[Dy1,5(acac)1.5(L)3][Dy1,5(acac)1.5(L)3]·0,5H2O}n",Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,1439217.cif,Proper,Others,2.696,,,2017,2017,10.1016/j.ica.2016.11.002,"Li, X., Li, T., Shi, X. J. & Tian, L. 2017 A family of 2p-4f complexes based on indazole radical: Syntheses, structures and magnetic properties. Inorganica Chimica Acta 456, 216–223. (doi:10.1016/j.ica.2016.11.002)"
+2017_16,"{[(Y1-xDyx)1.5 (acac)1.5(L)3][(Y1-xDyx)1.5 (acac)1.5(L)3]·0,5H2O}n",Schiff Base,,Dy3+,Oblate,Kramers,5.0,8.0,3.0,,Isostructural,,,,,2017,2017,10.1016/j.ica.2016.12.001,"Liu, L., Li, Y., Deng, S.-X. & Zhang, Y.-P. 2017 A dysprosium(III) complex based on Schiff-base ligand exhibiting two magnetic relaxation processes. Inorganica Chimica Acta 457, 1–6. (doi:10.1016/j.ica.2016.12.001)"
+2017_17,[Dy(L)(tta)3],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1510324.cif,Proper,Square antiprism,1.373,-3.5,1.0881125,2017,2017,10.3390/magnetochemistry3010002,"Fernandez-Garcia, G. et al. 2016 Slow Magnetic Relaxation in Chiral Helicene-Based Coordination Complex of Dysprosium. Magnetochemistry 3, 2. (doi:10.3390/magnetochemistry3010002)"
+2017_20,Dy(BFTA)3(H2O)2,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,4345531.cif,Proper,Triangular dodecahedron,0.149,1.8,0.955162,2017,2017,10.1021/acs.inorgchem.7b00057,"Cen, P.-P., Zhang, S., Liu, X.-Y., Song, W.-M., Zhang, Y.-Q., Xie, G. & Chen, S.-P. 2017 Electrostatic Potential Determined Magnetic Dynamics Observed in Two Mononuclear β-Diketone Dysprosium(III) Single-Molecule Magnets. Inorganic Chemistry 56, 3644–3656. (doi:10.1021/acs.inorgchem.7b00057)"
+2017_20,Dy(BFTA)3bpy,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4345530.cif,Proper,Square antiprism,0.571,-3.2,1.080512,2017,2017,10.1021/acs.inorgchem.7b00057,"Cen, P.-P., Zhang, S., Liu, X.-Y., Song, W.-M., Zhang, Y.-Q., Xie, G. & Chen, S.-P. 2017 Electrostatic Potential Determined Magnetic Dynamics Observed in Two Mononuclear β-Diketone Dysprosium(III) Single-Molecule Magnets. Inorganic Chemistry 56, 3644–3656. (doi:10.1021/acs.inorgchem.7b00057)"
+2017_21,Tm(dmf)4(H2O)3(m-CN)CoIII(CN)5·1.25H2O,TM near Ln,,Tm3+,Prolate,Non-Kramers,100.0,8.0,8.0,,,,,,,2017,2017,10.1039/c6dt04691f,"Amjad, A., Figuerola, A. & Sorace, L. 2017 Tm(iii) complexes undergoing slow relaxation of magnetization: exchange coupling and aging effects. Dalton Transactions 46, 3848–3856. (doi:10.1039/c6dt04691f)"
+2017_22,Yb2(hfac)6(L1)2(CH2Cl2)·C6H14,Diketonate,,Yb3+,Prolate,Kramers,100.0,,4.0,4349647.cif,Proper,Square antiprism,0.38,-2.3,1.0577645,2017,2017,10.1039/c6qi00546b,"Speed, S. et al. 2017 Lanthanide complexes involving multichelating TTF-based ligands. Inorganic Chemistry Frontiers 4, 604–617. (doi:10.1039/c6qi00546b)"
+2017_22,Yb2(hfac)6(L2)(CH2Cl2),Diketonate,,Yb3+,Prolate,Kramers,100.0,8.0,4.0,4349645.cif,Proper,Square antiprism,0.443,-2.3,1.0577645,2017,2017,10.1039/c6qi00546b,"Speed, S. et al. 2017 Lanthanide complexes involving multichelating TTF-based ligands. Inorganic Chemistry Frontiers 4, 604–617. (doi:10.1039/c6qi00546b)"
+2017_22,Dy2(hfac)6(L2)(CH2Cl2),Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,4349646.cif,Proper,Square antiprism,0.63,-2.5,1.0628125,2017,2017,10.1039/c6qi00546b,"Speed, S. et al. 2017 Lanthanide complexes involving multichelating TTF-based ligands. Inorganic Chemistry Frontiers 4, 604–617. (doi:10.1039/c6qi00546b)"
+2017_23,K2[N(CH3)4]5H4[Dy(α-PW11O39)2]·21H2O,POM,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,1521758.cif,Proper,Square antiprism,0.768,-3.2,1.080512,2017,2017,10.1021/acs.cgd.6b01895,"Ma, P., Hu, F., Huo, Y., Zhang, D., Zhang, C., Niu, J. & Wang, J. 2017 Magnetoluminescent Bifunctional Dysprosium-Based Phosphotungstates with Synthesis and Correlations between Structures and Properties. Crystal Growth & Design 17, 1947–1956. (doi:10.1021/acs.cgd.6b01895)"
+2017_24,[Tm(COT)I(THF)2],Other Families,100.0,Tm3+,Prolate,Non-Kramers,100.0,4.0,4.0,,,,,,,2017,2017,10.1021/acs.organomet.7b00449,"Harriman, K. L. M., Korobkov, I. & Murugesu, M. 2017 From a Piano Stool to a Sandwich: A Stepwise Route for Improving the Slow Magnetic Relaxation Properties of Thulium. Organometallics 36, 4515–4518. (doi:10.1021/acs.organomet.7b00449)"
+2017_24,[K(18-crown-6)(THF)2][Tm(COT)2],Metallocene,,Tm3+,Prolate,Non-Kramers,100.0,2.0,2.0,,,,,,,2017,2017,10.1021/acs.organomet.7b00449,"Harriman, K. L. M., Korobkov, I. & Murugesu, M. 2017 From a Piano Stool to a Sandwich: A Stepwise Route for Improving the Slow Magnetic Relaxation Properties of Thulium. Organometallics 36, 4515–4518. (doi:10.1021/acs.organomet.7b00449)"
+2017_25,[DyIII(HL)2(NO3)3],Schiff Base,,Dy3+,Oblate,Kramers,100.0,,5.0,990257.cif,Proper,Others,3.405,,,2017,2017,10.1002/chem.201700399,"Upadhyay, A. et al. 2017 Role of the Diamagnetic Zinc(II) Ion in Determining the Electronic Structure of Lanthanide Single-Ion Magnets. Chemistry - A European Journal 23, 4903–4916. (doi:10.1002/chem.201700399)"
+2017_25,[PrIII(HL)2(NO3)3],Schiff Base,,Pr3+,Oblate,Non-Kramers,100.0,,5.0,916657.cif,Proper,Others,4.333,,,2017,2017,10.1002/chem.201700399,"Upadhyay, A. et al. 2017 Role of the Diamagnetic Zinc(II) Ion in Determining the Electronic Structure of Lanthanide Single-Ion Magnets. Chemistry - A European Journal 23, 4903–4916. (doi:10.1002/chem.201700399)"
+2017_25,[ZnIIDyIII(L)2(CH3CO2)(NO3)2],Schiff Base,,Dy3+,Oblate,Kramers,100.0,9.0,5.0,990256.cif,Proper,Spherical capped square antiprism,2.026,1.0,0.97505,2017,2017,10.1002/chem.201700399,"Upadhyay, A. et al. 2017 Role of the Diamagnetic Zinc(II) Ion in Determining the Electronic Structure of Lanthanide Single-Ion Magnets. Chemistry - A European Journal 23, 4903–4916. (doi:10.1002/chem.201700399)"
+2017_25,[ZnII2PrIII(L)2(CH3CO2)4(NO3)],Schiff Base,,Pr3+,Oblate,Non-Kramers,100.0,,7.0,1471848.cif,Proper,Others,2.491,,,2017,2017,10.1002/chem.201700399,"Upadhyay, A. et al. 2017 Role of the Diamagnetic Zinc(II) Ion in Determining the Electronic Structure of Lanthanide Single-Ion Magnets. Chemistry - A European Journal 23, 4903–4916. (doi:10.1002/chem.201700399)"
+2017_25,[ZnIIDyIII(L)2(CH3CO2)(NO3)2],Schiff Base,,Dy3+,Oblate,Kramers,,9.0,5.0,,Proper,,,,,2017,2017,10.1002/chem.201700399,"Upadhyay, A. et al. 2017 Role of the Diamagnetic Zinc(II) Ion in Determining the Electronic Structure of Lanthanide Single-Ion Magnets. Chemistry - A European Journal 23, 4903–4916. (doi:10.1002/chem.201700399)"
+2017_26,Pr(Trenovan),Other Families,,Pr3+,Oblate,Non-Kramers,100.0,6.0,,4345777.cif,Proper,Octahedron,4.827,0.2,0.995002,2017,2017,10.1021/acs.inorgchem.7b00413,"Lucaccini, E., Baldoví, J. J., Chelazzi, L., Barra, A.-L., Grepioni, F., Costes, J.-P. & Sorace, L. 2017 Electronic Structure and Magnetic Anisotropy in Lanthanoid Single-Ion Magnets with C3 Symmetry: The Ln(trenovan) Series. Inorganic Chemistry 56, 4728–4738. (doi:10.1021/acs.inorgchem.7b00413)"
+2017_26,Nd(Trenovan),Other Families,,Nd3+,Oblate,Kramers,100.0,6.0,,,Isostructural,,,,,2017,2017,10.1021/acs.inorgchem.7b00413,"Lucaccini, E., Baldoví, J. J., Chelazzi, L., Barra, A.-L., Grepioni, F., Costes, J.-P. & Sorace, L. 2017 Electronic Structure and Magnetic Anisotropy in Lanthanoid Single-Ion Magnets with C3 Symmetry: The Ln(trenovan) Series. Inorganic Chemistry 56, 4728–4738. (doi:10.1021/acs.inorgchem.7b00413)"
+2017_26,Sm(Trenovan),Other Families,,Sm3+,Prolate,Kramers,100.0,6.0,,,Isostructural,,,,,2017,2017,10.1021/acs.inorgchem.7b00413,"Lucaccini, E., Baldoví, J. J., Chelazzi, L., Barra, A.-L., Grepioni, F., Costes, J.-P. & Sorace, L. 2017 Electronic Structure and Magnetic Anisotropy in Lanthanoid Single-Ion Magnets with C3 Symmetry: The Ln(trenovan) Series. Inorganic Chemistry 56, 4728–4738. (doi:10.1021/acs.inorgchem.7b00413)"
+2017_26,Gd(Trenovan),Other Families,,Gd3+,Isotropic,Kramers,100.0,6.0,,,Proper,,,,,2017,2017,10.1021/acs.inorgchem.7b00413,"Lucaccini, E., Baldoví, J. J., Chelazzi, L., Barra, A.-L., Grepioni, F., Costes, J.-P. & Sorace, L. 2017 Electronic Structure and Magnetic Anisotropy in Lanthanoid Single-Ion Magnets with C3 Symmetry: The Ln(trenovan) Series. Inorganic Chemistry 56, 4728–4738. (doi:10.1021/acs.inorgchem.7b00413)"
+2017_26,Tb(Trenovan),Other Families,,Tb3+,Oblate,Non-Kramers,100.0,6.0,,,Isostructural,,,,,2017,2017,10.1021/acs.inorgchem.7b00413,"Lucaccini, E., Baldoví, J. J., Chelazzi, L., Barra, A.-L., Grepioni, F., Costes, J.-P. & Sorace, L. 2017 Electronic Structure and Magnetic Anisotropy in Lanthanoid Single-Ion Magnets with C3 Symmetry: The Ln(trenovan) Series. Inorganic Chemistry 56, 4728–4738. (doi:10.1021/acs.inorgchem.7b00413)"
+2017_26,Dy(Trenovan),Other Families,,Dy3+,Oblate,Kramers,100.0,6.0,,,Isostructural,,,,,2017,2017,10.1021/acs.inorgchem.7b00413,"Lucaccini, E., Baldoví, J. J., Chelazzi, L., Barra, A.-L., Grepioni, F., Costes, J.-P. & Sorace, L. 2017 Electronic Structure and Magnetic Anisotropy in Lanthanoid Single-Ion Magnets with C3 Symmetry: The Ln(trenovan) Series. Inorganic Chemistry 56, 4728–4738. (doi:10.1021/acs.inorgchem.7b00413)"
+2017_26,Ho(Trenovan),Other Families,,Ho3+,Oblate,Non-Kramers,100.0,6.0,,,Isostructural,,,,,2017,2017,10.1021/acs.inorgchem.7b00413,"Lucaccini, E., Baldoví, J. J., Chelazzi, L., Barra, A.-L., Grepioni, F., Costes, J.-P. & Sorace, L. 2017 Electronic Structure and Magnetic Anisotropy in Lanthanoid Single-Ion Magnets with C3 Symmetry: The Ln(trenovan) Series. Inorganic Chemistry 56, 4728–4738. (doi:10.1021/acs.inorgchem.7b00413)"
+2017_26,Er(Trenovan),Other Families,,Er3+,Prolate,Kramers,100.0,6.0,,,Isostructural,,,,,2017,2017,10.1021/acs.inorgchem.7b00413,"Lucaccini, E., Baldoví, J. J., Chelazzi, L., Barra, A.-L., Grepioni, F., Costes, J.-P. & Sorace, L. 2017 Electronic Structure and Magnetic Anisotropy in Lanthanoid Single-Ion Magnets with C3 Symmetry: The Ln(trenovan) Series. Inorganic Chemistry 56, 4728–4738. (doi:10.1021/acs.inorgchem.7b00413)"
+2017_26,Tm(Trenovan),Other Families,,Tm3+,Prolate,Non-Kramers,100.0,6.0,,4345633.cif,Proper,Octahedron,4.093,0.2,0.995002,2017,2017,10.1021/acs.inorgchem.7b00413,"Lucaccini, E., Baldoví, J. J., Chelazzi, L., Barra, A.-L., Grepioni, F., Costes, J.-P. & Sorace, L. 2017 Electronic Structure and Magnetic Anisotropy in Lanthanoid Single-Ion Magnets with C3 Symmetry: The Ln(trenovan) Series. Inorganic Chemistry 56, 4728–4738. (doi:10.1021/acs.inorgchem.7b00413)"
+2017_26,Yb(Trenovan),Other Families,,Yb3+,Prolate,Kramers,100.0,6.0,,,Isostructural,,,,,2017,2017,10.1021/acs.inorgchem.7b00413,"Lucaccini, E., Baldoví, J. J., Chelazzi, L., Barra, A.-L., Grepioni, F., Costes, J.-P. & Sorace, L. 2017 Electronic Structure and Magnetic Anisotropy in Lanthanoid Single-Ion Magnets with C3 Symmetry: The Ln(trenovan) Series. Inorganic Chemistry 56, 4728–4738. (doi:10.1021/acs.inorgchem.7b00413)"
+2017_26,Y/Gd(Trenovan),Other Families,,Gd3+,Isotropic,Kramers,5.6,6.0,,,Isostructural,,,,,2017,2017,10.1021/acs.inorgchem.7b00413,"Lucaccini, E., Baldoví, J. J., Chelazzi, L., Barra, A.-L., Grepioni, F., Costes, J.-P. & Sorace, L. 2017 Electronic Structure and Magnetic Anisotropy in Lanthanoid Single-Ion Magnets with C3 Symmetry: The Ln(trenovan) Series. Inorganic Chemistry 56, 4728–4738. (doi:10.1021/acs.inorgchem.7b00413)"
+2017_26,Y/Dy(Trenovan),Other Families,,Dy3+,Oblate,Kramers,8.2,6.0,,,Isostructural,,,,,2017,2017,10.1021/acs.inorgchem.7b00413,"Lucaccini, E., Baldoví, J. J., Chelazzi, L., Barra, A.-L., Grepioni, F., Costes, J.-P. & Sorace, L. 2017 Electronic Structure and Magnetic Anisotropy in Lanthanoid Single-Ion Magnets with C3 Symmetry: The Ln(trenovan) Series. Inorganic Chemistry 56, 4728–4738. (doi:10.1021/acs.inorgchem.7b00413)"
+2017_27,[Dy(CyPh2PO)2(H2O)5]Br3·2(CyPh2PO)·EtOH·3H2O,P=O,,Dy3+,Oblate,Kramers,100.0,7.0,7.0,1519259.cif,Proper,Pentagonal bipyramid,0.174,2.8,0.930392,2017,2017,10.1002/chem.201606029,"Chen, Y.-C. et al. 2017 Dynamic Magnetic and Optical Insight into a High Performance Pentagonal Bipyramidal DyIII Single-Ion Magnet. Chemistry - A European Journal 23, 5708–5715. (doi:10.1002/chem.201606029)"
+2017_27,[Y/Dy(CyPh2PO)2(H2O)5]Br3·2(CyPh2PO)·EtOH·3H2O,P=O,,Dy3+,Oblate,Kramers,5.0,7.0,7.0,,Isostructural,,,,,2017,2017,10.1002/chem.201606029,"Chen, Y.-C. et al. 2017 Dynamic Magnetic and Optical Insight into a High Performance Pentagonal Bipyramidal DyIII Single-Ion Magnet. Chemistry - A European Journal 23, 5708–5715. (doi:10.1002/chem.201606029)"
+2017_28,[Dy(tbpy)2(NO3)(DMF)]⋅DMF,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,4.0,1529317.cif,Proper,Spherical tricapped trigonal prism,1.473,5.3,0.8689045,2017,2017,10.1016/j.inoche.2017.03.016,"Wen, H.-R., Liang, F.-Y., Zou, Z.-G., Liu, S.-J., Liao, J.-S. & Chen, J.-L. 2017 Mononuclear Dy(III) complex based on bipyridyl-tetrazolate ligand with field-induced single-ion magnet behavior and luminescent properties. Inorganic Chemistry Communications 79, 41–45. (doi:10.1016/j.inoche.2017.03.016)"
+2017_29,[Dy2(PDOA)3(H2O)6]·3.5H2O,Other Families,100000.0,Dy3+,Oblate,Kramers,100.0,9.0,6.0,7042601.cif,Proper,Spherical capped square antiprism,1.186,-1.6,1.040128,2017,2017,10.1039/c7dt00069c,"Boča, R., Stolárová, M., Falvello, L. R., Tomás, M., Titiš, J. & Černák, J. 2017 Slow magnetic relaxations in a ladder-type Dy(iii) complex and its dinuclear analogue. Dalton Transactions 46, 5344–5351. (doi:10.1039/c7dt00069c)"
+2017_30,ZnTb(HL)(NO3)(OAc)(H2O)](NO3),TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,4345765.cif,Isostructural,Biaugmented trigonal prism,7.715,-1.5,1.0376125,2017,2017,10.1021/acs.inorgchem.7b00165,"Fondo, M., Corredoira-Vázquez, J., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M. & Colacio, E. 2017 Designing Ligands to Isolate ZnLn and Zn2Ln Complexes: Field-Induced Single-Ion Magnet Behavior of the ZnDy, Zn2Dy, and Zn2Er Analogues. Inorganic Chemistry 56, 5646–5656. (doi:10.1021/acs.inorgchem.7b00165)"
+2017_30,ZnDy(HL)(NO3)(OAc)(CH3OH)](NO3),TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,Proper,,,,,2017,2017,10.1021/acs.inorgchem.7b00165,"Fondo, M., Corredoira-Vázquez, J., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M. & Colacio, E. 2017 Designing Ligands to Isolate ZnLn and Zn2Ln Complexes: Field-Induced Single-Ion Magnet Behavior of the ZnDy, Zn2Dy, and Zn2Er Analogues. Inorganic Chemistry 56, 5646–5656. (doi:10.1021/acs.inorgchem.7b00165)"
+2017_30,ZnEr(HL)(NO3)(OAc)(CH3OH)](NO3),TM near Ln,,Er3+,Prolate,Kramers,100.0,8.0,4.0,,Isostructural,,,,,2017,2017,10.1021/acs.inorgchem.7b00165,"Fondo, M., Corredoira-Vázquez, J., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M. & Colacio, E. 2017 Designing Ligands to Isolate ZnLn and Zn2Ln Complexes: Field-Induced Single-Ion Magnet Behavior of the ZnDy, Zn2Dy, and Zn2Er Analogues. Inorganic Chemistry 56, 5646–5656. (doi:10.1021/acs.inorgchem.7b00165)"
+2017_30,Zn2Dy(L)(NO3)2(OAc)2(H2O),TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,5.0,4345887.cif,Proper,Spherical capped square antiprism,1.998,0.8999999999999999,0.9775405,2017,2017,10.1021/acs.inorgchem.7b00165,"Fondo, M., Corredoira-Vázquez, J., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M. & Colacio, E. 2017 Designing Ligands to Isolate ZnLn and Zn2Ln Complexes: Field-Induced Single-Ion Magnet Behavior of the ZnDy, Zn2Dy, and Zn2Er Analogues. Inorganic Chemistry 56, 5646–5656. (doi:10.1021/acs.inorgchem.7b00165)"
+2017_30,Zn2Er(L)(NO3)2(OAc)2(H2O),TM near Ln,,Er3+,Prolate,Kramers,100.0,9.0,5.0,4345764.cif,Proper,Muffin,1.84,-3.8,1.095722,2017,2017,10.1021/acs.inorgchem.7b00165,"Fondo, M., Corredoira-Vázquez, J., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M. & Colacio, E. 2017 Designing Ligands to Isolate ZnLn and Zn2Ln Complexes: Field-Induced Single-Ion Magnet Behavior of the ZnDy, Zn2Dy, and Zn2Er Analogues. Inorganic Chemistry 56, 5646–5656. (doi:10.1021/acs.inorgchem.7b00165)"
+2017_31,TbPc2,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2017,2017,10.3390/molecules22060999,"Yamabayashi, T., Katoh, K., Breedlove, B. & Yamashita, M. 2017 Molecular Orientation of a Terbium(III)-Phthalocyaninato Double-Decker Complex for Effective Suppression of Quantum Tunneling of the Magnetization. Molecules 22, 999. (doi:10.3390/molecules22060999)"
+2017_31,TbPc2·CH2Cl2,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2017,2017,10.3390/molecules22060999,"Yamabayashi, T., Katoh, K., Breedlove, B. & Yamashita, M. 2017 Molecular Orientation of a Terbium(III)-Phthalocyaninato Double-Decker Complex for Effective Suppression of Quantum Tunneling of the Magnetization. Molecules 22, 999. (doi:10.3390/molecules22060999)"
+2017_32,[Ho(Cpttt)2][B(C6F5)4],Metallocene,,Ho3+,Oblate,Non-Kramers,100.0,2.0,2.0,1579114.cif,Proper,,,,,2017,2017,10.1021/jacs.7b11535,"Goodwin, C. A. P., Reta, D., Ortu, F., Chilton, N. F. & Mills, D. P. 2017 Synthesis and Electronic Structures of Heavy Lanthanide Metallocenium Cations. Journal of the American Chemical Society 139, 18714–18724. (doi:10.1021/jacs.7b11535)"
+2017_32,[Dy(Cpttt)2Cl],Other Families,100.0,Dy3+,Oblate,Kramers,100.0,3.0,3.0,1579123.cif,Isostructural,Others,1.573,,,2017,2017,10.1021/jacs.7b11535,"Goodwin, C. A. P., Reta, D., Ortu, F., Chilton, N. F. & Mills, D. P. 2017 Synthesis and Electronic Structures of Heavy Lanthanide Metallocenium Cations. Journal of the American Chemical Society 139, 18714–18724. (doi:10.1021/jacs.7b11535)"
+2017_32,[Er(Cpttt)2Cl],Other Families,100.0,Er3+,Prolate,Kramers,100.0,3.0,3.0,,Proper,,,,,2017,2017,10.1021/jacs.7b11535,"Goodwin, C. A. P., Reta, D., Ortu, F., Chilton, N. F. & Mills, D. P. 2017 Synthesis and Electronic Structures of Heavy Lanthanide Metallocenium Cations. Journal of the American Chemical Society 139, 18714–18724. (doi:10.1021/jacs.7b11535)"
+2017_32,[Tm(Cpttt)2Cl],Other Families,100.0,Tm3+,Prolate,Non-Kramers,100.0,3.0,3.0,,Proper,,,,,2017,2017,10.1021/jacs.7b11535,"Goodwin, C. A. P., Reta, D., Ortu, F., Chilton, N. F. & Mills, D. P. 2017 Synthesis and Electronic Structures of Heavy Lanthanide Metallocenium Cations. Journal of the American Chemical Society 139, 18714–18724. (doi:10.1021/jacs.7b11535)"
+2017_32,[Yb(Cpttt)2Cl],Other Families,100.0,Yb3+,Prolate,Kramers,100.0,3.0,3.0,1579124.cif,Proper,Others,1.665,,,2017,2017,10.1021/jacs.7b11535,"Goodwin, C. A. P., Reta, D., Ortu, F., Chilton, N. F. & Mills, D. P. 2017 Synthesis and Electronic Structures of Heavy Lanthanide Metallocenium Cations. Journal of the American Chemical Society 139, 18714–18724. (doi:10.1021/jacs.7b11535)"
+2017_32,[Yb(Cpttt)2],Metallocene,,Yb3+,Prolate,Kramers,100.0,3.0,3.0,1579126.cif,Proper,Others,13.496,,,2017,2017,10.1021/jacs.7b11535,"Goodwin, C. A. P., Reta, D., Ortu, F., Chilton, N. F. & Mills, D. P. 2017 Synthesis and Electronic Structures of Heavy Lanthanide Metallocenium Cations. Journal of the American Chemical Society 139, 18714–18724. (doi:10.1021/jacs.7b11535)"
+2017_33,[TbIII(hfac)3(phNO)(H2O)],Radical,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,,,,,,,2017,2017,10.1016/j.poly.2017.02.031,"Kanetomo, T., Yasui, M. & Ishida, T. 2017 Exchange-coupled terbium-radical complex Tb-phNO showing slow reversal of magnetization. Polyhedron 136, 30–34. (doi:10.1016/j.poly.2017.02.031)"
+2017_33,[DyIII(hfac)3(phNO)(H2O)],Radical,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,,,,,,,2017,2017,10.1016/j.poly.2017.02.031,"Kanetomo, T., Yasui, M. & Ishida, T. 2017 Exchange-coupled terbium-radical complex Tb-phNO showing slow reversal of magnetization. Polyhedron 136, 30–34. (doi:10.1016/j.poly.2017.02.031)"
+2017_34,[Tb(H2L)1.5Cl3]n,Schiff Base,,Tb3+,Oblate,Non-Kramers,100.0,6.0,6.0,1405294.cif,Proper,Octahedron,1.409,-5.7,1.1441245,2017,2017,10.1016/j.poly.2017.03.040,"Yue, Y., Hou, G., Yao, X. & Li, G. 2017 Single molecular magnet of lanthanide coordination polymer with 1D helical-like chain based on flexible Salen-type ligand. Polyhedron 129, 157–163. (doi:10.1016/j.poly.2017.03.040)"
+2017_34,[Dy(H2L)1.5Cl3]n,Schiff Base,,Dy3+,Oblate,Kramers,100.0,6.0,6.0,1405298.cif,Proper,Octahedron,1.395,-5.800000000000001,1.146682,2017,2017,10.1016/j.poly.2017.03.040,"Yue, Y., Hou, G., Yao, X. & Li, G. 2017 Single molecular magnet of lanthanide coordination polymer with 1D helical-like chain based on flexible Salen-type ligand. Polyhedron 129, 157–163. (doi:10.1016/j.poly.2017.03.040)"
+2017_34,[Ho(H2L)1.5Cl3]n,Schiff Base,,Ho3+,Oblate,Non-Kramers,100.0,6.0,6.0,1405296.cif,Proper,Octahedron,1.364,-5.800000000000001,1.146682,2017,2017,10.1016/j.poly.2017.03.040,"Yue, Y., Hou, G., Yao, X. & Li, G. 2017 Single molecular magnet of lanthanide coordination polymer with 1D helical-like chain based on flexible Salen-type ligand. Polyhedron 129, 157–163. (doi:10.1016/j.poly.2017.03.040)"
+2017_34,[Er(H2L)1.5Cl3]n,Schiff Base,,Er3+,Prolate,Kramers,100.0,6.0,6.0,1405297.cif,Proper,Octahedron,1.332,-5.7,1.1441245,2017,2017,10.1016/j.poly.2017.03.040,"Yue, Y., Hou, G., Yao, X. & Li, G. 2017 Single molecular magnet of lanthanide coordination polymer with 1D helical-like chain based on flexible Salen-type ligand. Polyhedron 129, 157–163. (doi:10.1016/j.poly.2017.03.040)"
+2017_35,DyFc3Li2(THF)2,Other Families,,Dy3+,Oblate,Kramers,100.0,6.0,6.0,4126210.cif,Proper,Others,0.518,,,2017,2017,10.1021/jacs.7b01499,"Latendresse, T. P., Bhuvanesh, N. S. & Nippe, M. 2017 Slow Magnetic Relaxation in a Lanthanide-[1]Metallocenophane Complex. Journal of the American Chemical Society 139, 8058–8061. (doi:10.1021/jacs.7b01499)"
+2017_35,Dy0.08Y0.92Fc3Li2(THF)2,Other Families,,Dy3+,Oblate,Kramers,8.0,6.0,6.0,,Isostructural,,,,,2017,2017,10.1021/jacs.7b01499,"Latendresse, T. P., Bhuvanesh, N. S. & Nippe, M. 2017 Slow Magnetic Relaxation in a Lanthanide-[1]Metallocenophane Complex. Journal of the American Chemical Society 139, 8058–8061. (doi:10.1021/jacs.7b01499)"
+2017_36,Dy(hfac)3(2pyNO),Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,7.0,1504137.cif,Proper,Square antiprism,0.962,-2.8,1.070392,2017,2017,10.1088/1757-899X/202/1/012001,"Ishida, T. 2017 Spin-Parity Behavior in the Exchange-Coupled Lanthanoid-Nitroxide Molecular Magnets. IOP Conference Series: Materials Science and Engineering 202, 012001. (doi:10.1088/1757-899x/202/1/012001)"
+2017_36,Ho(hfac)3(2pyNO),Diketonate,,Ho3+,Oblate,Non-Kramers,100.0,8.0,7.0,1504138.cif,Proper,Square antiprism,0.993,-2.8,1.070392,2017,2017,10.1088/1757-899X/202/1/012001,"Ishida, T. 2017 Spin-Parity Behavior in the Exchange-Coupled Lanthanoid-Nitroxide Molecular Magnets. IOP Conference Series: Materials Science and Engineering 202, 012001. (doi:10.1088/1757-899x/202/1/012001)"
+2017_36,Er(hfac)3(2pyNO),Diketonate,,Er3+,Prolate,Kramers,100.0,8.0,7.0,1504139.cif,Proper,Square antiprism,0.934,-2.6,1.065338,2017,2017,10.1088/1757-899X/202/1/012001,"Ishida, T. 2017 Spin-Parity Behavior in the Exchange-Coupled Lanthanoid-Nitroxide Molecular Magnets. IOP Conference Series: Materials Science and Engineering 202, 012001. (doi:10.1088/1757-899x/202/1/012001)"
+2017_37,[(LCO)Dy(N*)2],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,6.0,3.0,1529445.cif,Proper,Others,2.361,,,2017,2017,10.1021/acs.inorgchem.7b00952,"Liu, S.-S., Meng, Y.-S., Zhang, Y.-Q., Meng, Z.-S., Lang, K., Zhu, Z.-L., Shang, C.-F., Wang, B.-W. & Gao, S. 2017 A Six-Coordinate Dysprosium Single-Ion Magnet with Trigonal-Prismatic Geometry. Inorganic Chemistry 56, 7320–7323. (doi:10.1021/acs.inorgchem.7b00952)"
+2017_38,Tb(HL)2(NO3)3,Schiff Base,,Tb3+,Oblate,Non-Kramers,100.0,,5.0,,,,,,,2017,2017,10.1021/acs.inorgchem.7b02357,"Upadhyay, A., Vignesh, K. R., Das, C., Singh, S. K., Rajaraman, G. & Shanmugam, M. 2017 Influence of the Ligand Field on the Slow Relaxation of Magnetization of Unsymmetrical Monomeric Lanthanide Complexes: Synthesis and Theoretical Studies. Inorganic Chemistry 56, 14260–14276. (doi:10.1021/acs.inorgchem.7b02357)"
+2017_38,Ho(HL)2(NO3)3,Schiff Base,,Ho3+,Oblate,Non-Kramers,100.0,,5.0,,,,,,,2017,2017,10.1021/acs.inorgchem.7b02357,"Upadhyay, A., Vignesh, K. R., Das, C., Singh, S. K., Rajaraman, G. & Shanmugam, M. 2017 Influence of the Ligand Field on the Slow Relaxation of Magnetization of Unsymmetrical Monomeric Lanthanide Complexes: Synthesis and Theoretical Studies. Inorganic Chemistry 56, 14260–14276. (doi:10.1021/acs.inorgchem.7b02357)"
+2017_38,Er(HL)2(NO3)3,Schiff Base,,Er3+,Prolate,Kramers,100.0,,5.0,,,,,,,2017,2017,10.1021/acs.inorgchem.7b02357,"Upadhyay, A., Vignesh, K. R., Das, C., Singh, S. K., Rajaraman, G. & Shanmugam, M. 2017 Influence of the Ligand Field on the Slow Relaxation of Magnetization of Unsymmetrical Monomeric Lanthanide Complexes: Synthesis and Theoretical Studies. Inorganic Chemistry 56, 14260–14276. (doi:10.1021/acs.inorgchem.7b02357)"
+2017_38,Lu0.5Er0.5(HL)2(NO3)3,Schiff Base,,Er3+,Prolate,Kramers,50.0,,5.0,,,,,,,2017,2017,10.1021/acs.inorgchem.7b02357,"Upadhyay, A., Vignesh, K. R., Das, C., Singh, S. K., Rajaraman, G. & Shanmugam, M. 2017 Influence of the Ligand Field on the Slow Relaxation of Magnetization of Unsymmetrical Monomeric Lanthanide Complexes: Synthesis and Theoretical Studies. Inorganic Chemistry 56, 14260–14276. (doi:10.1021/acs.inorgchem.7b02357)"
+2017_39,[(C5Me5)2Dy(NH3)2](BPh4),Other Families,100.0,Dy3+,Oblate,Kramers,100.0,4.0,4.0,,,,,,,2017,2017,10.1021/acs.inorgchem.7b02390,"Demir, S., Boshart, M. D., Corbey, J. F., Woen, D. H., Gonzalez, M. I., Ziller, J. W., Meihaus, K. R., Long, J. R. & Evans, W. J. 2017 Slow Magnetic Relaxation in a Dysprosium Ammonia Metallocene Complex. Inorganic Chemistry 56, 15049–15056. (doi:10.1021/acs.inorgchem.7b02390)"
+2017_39,[(C5Me5)2Dy(NH3)(THF)](BPh4),Other Families,100.0,Dy3+,Oblate,Kramers,100.0,4.0,4.0,,,,,,,2017,2017,10.1021/acs.inorgchem.7b02390,"Demir, S., Boshart, M. D., Corbey, J. F., Woen, D. H., Gonzalez, M. I., Ziller, J. W., Meihaus, K. R., Long, J. R. & Evans, W. J. 2017 Slow Magnetic Relaxation in a Dysprosium Ammonia Metallocene Complex. Inorganic Chemistry 56, 15049–15056. (doi:10.1021/acs.inorgchem.7b02390)"
+2017_40,[Pr2(BTB)3(DME)2]·C6H14,Diketonate,,Pr3+,Oblate,Non-Kramers,100.0,8.0,4.0,,,,,,,2017,2017,10.1016/j.poly.2017.01.011,"Gao, X., Li, H., Chen, P., Sun, W. & Yan, P. 2017 A series of triple-stranded lanthanide(III) helicates: Syntheses, structures and single molecular magnets. Polyhedron 126, 1–7. (doi:10.1016/j.poly.2017.01.011)"
+2017_40,[Dy2(BTB)3(DME)2]·C6H14,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,,,,,,2017,2017,10.1016/j.poly.2017.01.011,"Gao, X., Li, H., Chen, P., Sun, W. & Yan, P. 2017 A series of triple-stranded lanthanide(III) helicates: Syntheses, structures and single molecular magnets. Polyhedron 126, 1–7. (doi:10.1016/j.poly.2017.01.011)"
+2017_40,[Ho2(BTB)3(DME)2]·C6H14,Diketonate,,Ho3+,Oblate,Non-Kramers,100.0,8.0,4.0,,,,,,,2017,2017,10.1016/j.poly.2017.01.011,"Gao, X., Li, H., Chen, P., Sun, W. & Yan, P. 2017 A series of triple-stranded lanthanide(III) helicates: Syntheses, structures and single molecular magnets. Polyhedron 126, 1–7. (doi:10.1016/j.poly.2017.01.011)"
+2017_40,[Yb2(BTB)3(DME)2]·C6H14,Diketonate,,Yb3+,Prolate,Kramers,100.0,8.0,4.0,,,,,,,2017,2017,10.1016/j.poly.2017.01.011,"Gao, X., Li, H., Chen, P., Sun, W. & Yan, P. 2017 A series of triple-stranded lanthanide(III) helicates: Syntheses, structures and single molecular magnets. Polyhedron 126, 1–7. (doi:10.1016/j.poly.2017.01.011)"
+2017_41,(C4H10ON)8H5[Er(GeMo11O39)2]·14H2O,POM,,Er3+,Prolate,Kramers,100.0,8.0,2.0,7056676.cif,Proper,Square antiprism,0.83,-2.0,1.0502,2017,2017,10.1039/c7nj02104f,"Jin, Z., Bai, J., Wei, T., Li, F., Song, C., Luo, X. & Xu, L. 2017 A new series of mononuclear lanthanide single molecule magnets based on sandwich-type germanomolybdates [Ln(GeMo11O39)2]13− (Ln = ErIII, GdIII, DyIII or TbIII). New Journal of Chemistry 41, 13490–13494. (doi:10.1039/c7nj02104f)"
+2017_41,(C4H10ON)8H5[Gd(GeMo11O39)2]·13H2O,POM,,Gd3+,Isotropic,Kramers,100.0,8.0,2.0,,Proper,,,,,2017,2017,10.1039/c7nj02104f,"Jin, Z., Bai, J., Wei, T., Li, F., Song, C., Luo, X. & Xu, L. 2017 A new series of mononuclear lanthanide single molecule magnets based on sandwich-type germanomolybdates [Ln(GeMo11O39)2]13− (Ln = ErIII, GdIII, DyIII or TbIII). New Journal of Chemistry 41, 13490–13494. (doi:10.1039/c7nj02104f)"
+2017_41,(C4H10ON)8H5[Dy(GeMo11O39)2]·15H2O,POM,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,7056678.cif,Proper,Square antiprism,0.874,-2.2,1.055242,2017,2017,10.1039/c7nj02104f,"Jin, Z., Bai, J., Wei, T., Li, F., Song, C., Luo, X. & Xu, L. 2017 A new series of mononuclear lanthanide single molecule magnets based on sandwich-type germanomolybdates [Ln(GeMo11O39)2]13− (Ln = ErIII, GdIII, DyIII or TbIII). New Journal of Chemistry 41, 13490–13494. (doi:10.1039/c7nj02104f)"
+2017_41,(C4H10ON)8H5[Tb(GeMo11O39)2]·14H2O,POM,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,7056679.cif,Proper,Square antiprism,0.868,-2.0,1.0502,2017,2017,10.1039/c7nj02104f,"Jin, Z., Bai, J., Wei, T., Li, F., Song, C., Luo, X. & Xu, L. 2017 A new series of mononuclear lanthanide single molecule magnets based on sandwich-type germanomolybdates [Ln(GeMo11O39)2]13− (Ln = ErIII, GdIII, DyIII or TbIII). New Journal of Chemistry 41, 13490–13494. (doi:10.1039/c7nj02104f)"
+2017_42,[Dy(LH)(tfa)2],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,,,,,,,2017,2017,10.1021/acs.inorgchem.7b00689,"Biswas, S., Bejoymohandas, K. S., Das, S., Kalita, P., Reddy, M. L. P., Oyarzabal, I., Colacio, E. & Chandrasekhar, V. 2017 Mononuclear Lanthanide Complexes: Energy-Barrier Enhancement by Ligand Substitution in Field-Induced DyIII SIMs. Inorganic Chemistry 56, 7985–7997. (doi:10.1021/acs.inorgchem.7b00689)"
+2017_42,[Tb(LH)(tfa)2],Diketonate,,Tb3+,Oblate,Non-Kramers,100.0,8.0,3.0,,,,,,,2017,2017,10.1021/acs.inorgchem.7b00689,"Biswas, S., Bejoymohandas, K. S., Das, S., Kalita, P., Reddy, M. L. P., Oyarzabal, I., Colacio, E. & Chandrasekhar, V. 2017 Mononuclear Lanthanide Complexes: Energy-Barrier Enhancement by Ligand Substitution in Field-Induced DyIII SIMs. Inorganic Chemistry 56, 7985–7997. (doi:10.1021/acs.inorgchem.7b00689)"
+2017_42,[Gd(LH)(tfa)2],Diketonate,,Gd3+,Isotropic,Kramers,100.0,8.0,3.0,,,,,,,2017,2017,10.1021/acs.inorgchem.7b00689,"Biswas, S., Bejoymohandas, K. S., Das, S., Kalita, P., Reddy, M. L. P., Oyarzabal, I., Colacio, E. & Chandrasekhar, V. 2017 Mononuclear Lanthanide Complexes: Energy-Barrier Enhancement by Ligand Substitution in Field-Induced DyIII SIMs. Inorganic Chemistry 56, 7985–7997. (doi:10.1021/acs.inorgchem.7b00689)"
+2017_42,[Dy(LH)2]·Cl[2MeOH],Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,,,,,,,2017,2017,10.1021/acs.inorgchem.7b00689,"Biswas, S., Bejoymohandas, K. S., Das, S., Kalita, P., Reddy, M. L. P., Oyarzabal, I., Colacio, E. & Chandrasekhar, V. 2017 Mononuclear Lanthanide Complexes: Energy-Barrier Enhancement by Ligand Substitution in Field-Induced DyIII SIMs. Inorganic Chemistry 56, 7985–7997. (doi:10.1021/acs.inorgchem.7b00689)"
+2017_42,[Tb(LH)2]·Cl[2MeOH],Schiff Base,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2017,2017,10.1021/acs.inorgchem.7b00689,"Biswas, S., Bejoymohandas, K. S., Das, S., Kalita, P., Reddy, M. L. P., Oyarzabal, I., Colacio, E. & Chandrasekhar, V. 2017 Mononuclear Lanthanide Complexes: Energy-Barrier Enhancement by Ligand Substitution in Field-Induced DyIII SIMs. Inorganic Chemistry 56, 7985–7997. (doi:10.1021/acs.inorgchem.7b00689)"
+2017_43,[Dy(LOEt)2](PF6),P=O,,Dy3+,Oblate,Kramers,100.0,6.0,2.0,4345707.cif,Isostructural,Octahedron,0.526,0.0,1.0,2017,2017,10.1021/acs.inorgchem.6b03118,"Lim, K. S. et al. 2017 Custom Coordination Environments for Lanthanoids: Tripodal Ligands Achieve Near-Perfect Octahedral Coordination for Two Dysprosium-Based Molecular Nanomagnets. Inorganic Chemistry 56, 4911–4917. (doi:10.1021/acs.inorgchem.6b03118)"
+2017_43,[Dy(LOEt)2](PF6) Diluted 20-fold,P=O,,Dy3+,Oblate,Kramers,20.0,6.0,2.0,,Proper,,,,,2017,2017,10.1021/acs.inorgchem.6b03118,"Lim, K. S. et al. 2017 Custom Coordination Environments for Lanthanoids: Tripodal Ligands Achieve Near-Perfect Octahedral Coordination for Two Dysprosium-Based Molecular Nanomagnets. Inorganic Chemistry 56, 4911–4917. (doi:10.1021/acs.inorgchem.6b03118)"
+2017_43,[Dy(LOiPr)2](PF6),P=O,,Dy3+,Oblate,Kramers,100.0,6.0,2.0,904371.cif,Proper,Octahedron,0.526,0.0,1.0,2017,2017,10.1021/acs.inorgchem.6b03118,"Lim, K. S. et al. 2017 Custom Coordination Environments for Lanthanoids: Tripodal Ligands Achieve Near-Perfect Octahedral Coordination for Two Dysprosium-Based Molecular Nanomagnets. Inorganic Chemistry 56, 4911–4917. (doi:10.1021/acs.inorgchem.6b03118)"
+2017_44,[Tb2(NMP)12(PW12O40)] [PW12O40],POM,,Tb3+,Oblate,Non-Kramers,100.0,7.0,7.0,1526936.cif,Proper,Pentagonal bipyramid,0.275,2.1,0.9477205,2017,2017,10.1021/acs.inorgchem.7b00577,"Li, J., Yuan, C., Yang, L., Kong, M., Zhang, J., Ge, J.-Y., Zhang, Y.-Q. & Song, Y. 2017 Magnetic Anisotropy along a Series of Lanthanide Polyoxometalates with Pentagonal Bipyramidal Symmetry. Inorganic Chemistry 56, 7835–7841. (doi:10.1021/acs.inorgchem.7b00577)"
+2017_44,[Dy2(NMP)12(PW12O40)] [PW12O40],POM,,Dy3+,Oblate,Kramers,100.0,7.0,7.0,1526938.cif,Proper,Pentagonal bipyramid,0.382,2.2,0.945242,2017,2017,10.1021/acs.inorgchem.7b00577,"Li, J., Yuan, C., Yang, L., Kong, M., Zhang, J., Ge, J.-Y., Zhang, Y.-Q. & Song, Y. 2017 Magnetic Anisotropy along a Series of Lanthanide Polyoxometalates with Pentagonal Bipyramidal Symmetry. Inorganic Chemistry 56, 7835–7841. (doi:10.1021/acs.inorgchem.7b00577)"
+2017_44,[Ho2(NMP)12(PW12O40)] [PW12O40],POM,,Ho3+,Oblate,Non-Kramers,100.0,7.0,7.0,1526934.cif,Proper,Pentagonal bipyramid,0.484,2.1,0.9477205,2017,2017,10.1021/acs.inorgchem.7b00577,"Li, J., Yuan, C., Yang, L., Kong, M., Zhang, J., Ge, J.-Y., Zhang, Y.-Q. & Song, Y. 2017 Magnetic Anisotropy along a Series of Lanthanide Polyoxometalates with Pentagonal Bipyramidal Symmetry. Inorganic Chemistry 56, 7835–7841. (doi:10.1021/acs.inorgchem.7b00577)"
+2017_44,[Er2(NMP)12(PW12O40)] [PW12O40],POM,,Er3+,Prolate,Kramers,100.0,7.0,7.0,,,,,,,2017,2017,10.1021/acs.inorgchem.7b00577,"Li, J., Yuan, C., Yang, L., Kong, M., Zhang, J., Ge, J.-Y., Zhang, Y.-Q. & Song, Y. 2017 Magnetic Anisotropy along a Series of Lanthanide Polyoxometalates with Pentagonal Bipyramidal Symmetry. Inorganic Chemistry 56, 7835–7841. (doi:10.1021/acs.inorgchem.7b00577)"
+2017_44,[Tm2(NMP)12(PW12O40)] [PW12O40],POM,,Tm3+,Prolate,Non-Kramers,100.0,7.0,7.0,1526939.cif,Proper,Pentagonal bipyramid,0.291,1.4,0.965098,2017,2017,10.1021/acs.inorgchem.7b00577,"Li, J., Yuan, C., Yang, L., Kong, M., Zhang, J., Ge, J.-Y., Zhang, Y.-Q. & Song, Y. 2017 Magnetic Anisotropy along a Series of Lanthanide Polyoxometalates with Pentagonal Bipyramidal Symmetry. Inorganic Chemistry 56, 7835–7841. (doi:10.1021/acs.inorgchem.7b00577)"
+2017_44,[Yb2(NMP)12(PW12O40)] [PW12O40],POM,,Yb3+,Prolate,Kramers,100.0,7.0,7.0,1526935.cif,Proper,Pentagonal bipyramid,0.395,2.7,0.9328645,2017,2017,10.1021/acs.inorgchem.7b00577,"Li, J., Yuan, C., Yang, L., Kong, M., Zhang, J., Ge, J.-Y., Zhang, Y.-Q. & Song, Y. 2017 Magnetic Anisotropy along a Series of Lanthanide Polyoxometalates with Pentagonal Bipyramidal Symmetry. Inorganic Chemistry 56, 7835–7841. (doi:10.1021/acs.inorgchem.7b00577)"
+2017_44,[Dy2(NMP)12(PW12O40)] [PW12O40],POM,,Dy3+,Oblate,Kramers,10.0,7.0,7.0,,Isostructural,,,,,2017,2017,10.1021/acs.inorgchem.7b00577,"Li, J., Yuan, C., Yang, L., Kong, M., Zhang, J., Ge, J.-Y., Zhang, Y.-Q. & Song, Y. 2017 Magnetic Anisotropy along a Series of Lanthanide Polyoxometalates with Pentagonal Bipyramidal Symmetry. Inorganic Chemistry 56, 7835–7841. (doi:10.1021/acs.inorgchem.7b00577)"
+2017_44,[Yb2(NMP)12(PW12O40)] [PW12O40],POM,,Yb3+,Prolate,Kramers,10.0,7.0,7.0,,Isostructural,,,,,2017,2017,10.1021/acs.inorgchem.7b00577,"Li, J., Yuan, C., Yang, L., Kong, M., Zhang, J., Ge, J.-Y., Zhang, Y.-Q. & Song, Y. 2017 Magnetic Anisotropy along a Series of Lanthanide Polyoxometalates with Pentagonal Bipyramidal Symmetry. Inorganic Chemistry 56, 7835–7841. (doi:10.1021/acs.inorgchem.7b00577)"
+2017_45,(Pc)Tb{Pc[N(C4H9)2]8},LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,1524821.cif,Proper,Square antiprism,0.598,-6.5,1.1646125,2017,2017,10.1021/acs.inorgchem.7b02010,"Chen, Y. et al. 2017 A New Bis(phthalocyaninato) Terbium Single-Ion Magnet with an Overall Excellent Magnetic Performance. Inorganic Chemistry 56, 13889–13896. (doi:10.1021/acs.inorgchem.7b02010)"
+2017_45,[(Pc)Tb{Pc[N(C4H9)2]8}]−·[(C4H9)4N]+,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,1524822.cif,Proper,Square antiprism,0.933,-7.5,1.1903125,2017,2017,10.1021/acs.inorgchem.7b02010,"Chen, Y. et al. 2017 A New Bis(phthalocyaninato) Terbium Single-Ion Magnet with an Overall Excellent Magnetic Performance. Inorganic Chemistry 56, 13889–13896. (doi:10.1021/acs.inorgchem.7b02010)"
+2017_45,(Pc)Tb0.13Y0.87{Pc[N(C4H9)2]8},LnPc2,,Tb3+,Oblate,Non-Kramers,13.0,8.0,2.0,,Isostructural,,,,,2017,2017,10.1021/acs.inorgchem.7b02010,"Chen, Y. et al. 2017 A New Bis(phthalocyaninato) Terbium Single-Ion Magnet with an Overall Excellent Magnetic Performance. Inorganic Chemistry 56, 13889–13896. (doi:10.1021/acs.inorgchem.7b02010)"
+2017_45,[(Pc)Tb0.11Y0.89{Pc[N(C4H9)2]8}]−·[(C4H9)4N]+,LnPc2,,Tb3+,Oblate,Non-Kramers,11.0,8.0,2.0,,Isostructural,,,,,2017,2017,10.1021/acs.inorgchem.7b02010,"Chen, Y. et al. 2017 A New Bis(phthalocyaninato) Terbium Single-Ion Magnet with an Overall Excellent Magnetic Performance. Inorganic Chemistry 56, 13889–13896. (doi:10.1021/acs.inorgchem.7b02010)"
+2017_46,Dy(NCS)3·6(H2O),Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,8.0,1547542.cif,Proper,Square antiprism,0.555,-3.1,1.0779805,2017,2017,10.1002/ejic.201700537,"Petrosyants, S. P., Dobrokhotova, Z. V., Ilyukhin, A. B., Efimov, N. N., Gavrikov, A. V., Vasilyev, P. N. & Novotortsev, V. M. 2017 Mononuclear Dysprosium Thiocyanate Complexes with 2,2′-Bipyridine and 1,10-Phenanthroline: Synthesis, Crystal Structures, SIM Behavior, and Solid-Phase Transformations. European Journal of Inorganic Chemistry 2017, 3561–3569. (doi:10.1002/ejic.201700537)"
+2017_46,[Dy(NCS)3·(H2O)(bpy)2]·0.5(bpy)·H2O,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,6.0,,,,,,,2017,2017,10.1002/ejic.201700537,"Petrosyants, S. P., Dobrokhotova, Z. V., Ilyukhin, A. B., Efimov, N. N., Gavrikov, A. V., Vasilyev, P. N. & Novotortsev, V. M. 2017 Mononuclear Dysprosium Thiocyanate Complexes with 2,2′-Bipyridine and 1,10-Phenanthroline: Synthesis, Crystal Structures, SIM Behavior, and Solid-Phase Transformations. European Journal of Inorganic Chemistry 2017, 3561–3569. (doi:10.1002/ejic.201700537)"
+2017_46,[Dy(NCS)3(H2O)(phen)2]·phen·0.5H2O,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,6.0,1547543.cif,Proper,Square antiprism,1.83,-4.4,1.110968,2017,2017,10.1002/ejic.201700537,"Petrosyants, S. P., Dobrokhotova, Z. V., Ilyukhin, A. B., Efimov, N. N., Gavrikov, A. V., Vasilyev, P. N. & Novotortsev, V. M. 2017 Mononuclear Dysprosium Thiocyanate Complexes with 2,2′-Bipyridine and 1,10-Phenanthroline: Synthesis, Crystal Structures, SIM Behavior, and Solid-Phase Transformations. European Journal of Inorganic Chemistry 2017, 3561–3569. (doi:10.1002/ejic.201700537)"
+2017_46,[Hbpy][Dy(NCS)4(bpy)2]·H2O,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,6.0,1547544.cif,Proper,Square antiprism,0.808,-5.1,1.1288005,2017,2017,10.1002/ejic.201700537,"Petrosyants, S. P., Dobrokhotova, Z. V., Ilyukhin, A. B., Efimov, N. N., Gavrikov, A. V., Vasilyev, P. N. & Novotortsev, V. M. 2017 Mononuclear Dysprosium Thiocyanate Complexes with 2,2′-Bipyridine and 1,10-Phenanthroline: Synthesis, Crystal Structures, SIM Behavior, and Solid-Phase Transformations. European Journal of Inorganic Chemistry 2017, 3561–3569. (doi:10.1002/ejic.201700537)"
+2017_46,[Hphen][Dy(NCS)4(phen)2],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,6.0,,,,,,,2017,2017,10.1002/ejic.201700537,"Petrosyants, S. P., Dobrokhotova, Z. V., Ilyukhin, A. B., Efimov, N. N., Gavrikov, A. V., Vasilyev, P. N. & Novotortsev, V. M. 2017 Mononuclear Dysprosium Thiocyanate Complexes with 2,2′-Bipyridine and 1,10-Phenanthroline: Synthesis, Crystal Structures, SIM Behavior, and Solid-Phase Transformations. European Journal of Inorganic Chemistry 2017, 3561–3569. (doi:10.1002/ejic.201700537)"
+2017_47,[DyL2H],LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,1546796.cif,Proper,Square antiprism,1.088,-8.200000000000001,1.208362,2017,2017,10.1021/acs.inorgchem.7b00626,"Liang, Z., Damjanović, M., Kamila, M., Cosquer, G., Breedlove, B. K., Enders, M. & Yamashita, M. 2017 Proton Control of the Lanthanoid Single-Ion Magnet Behavior of a Double-Decker Complex with an Indolenine-Substituted Annulene Ligand. Inorganic Chemistry 56, 6512–6521. (doi:10.1021/acs.inorgchem.7b00626)"
+2017_47,[DyL2H] diluted in CH2Cl2,LnPc2,,Dy3+,Oblate,Kramers,,8.0,2.0,,Isostructural,,,,,2017,2017,10.1021/acs.inorgchem.7b00626,"Liang, Z., Damjanović, M., Kamila, M., Cosquer, G., Breedlove, B. K., Enders, M. & Yamashita, M. 2017 Proton Control of the Lanthanoid Single-Ion Magnet Behavior of a Double-Decker Complex with an Indolenine-Substituted Annulene Ligand. Inorganic Chemistry 56, 6512–6521. (doi:10.1021/acs.inorgchem.7b00626)"
+2017_47,[DyL2H] diluted in CH2Cl2 with an excess of AcH,LnPc2,,Dy3+,Oblate,Kramers,,8.0,2.0,,Isostructural,,,,,2017,2017,10.1021/acs.inorgchem.7b00626,"Liang, Z., Damjanović, M., Kamila, M., Cosquer, G., Breedlove, B. K., Enders, M. & Yamashita, M. 2017 Proton Control of the Lanthanoid Single-Ion Magnet Behavior of a Double-Decker Complex with an Indolenine-Substituted Annulene Ligand. Inorganic Chemistry 56, 6512–6521. (doi:10.1021/acs.inorgchem.7b00626)"
+2017_47,"[DyL2H] with an excess of 1,8-diazabicyclo[5.4.0]-undec-7-ene (DBU)",LnPc2,,Dy3+,Oblate,Kramers,,8.0,2.0,,Isostructural,,,,,2017,2017,10.1021/acs.inorgchem.7b00626,"Liang, Z., Damjanović, M., Kamila, M., Cosquer, G., Breedlove, B. K., Enders, M. & Yamashita, M. 2017 Proton Control of the Lanthanoid Single-Ion Magnet Behavior of a Double-Decker Complex with an Indolenine-Substituted Annulene Ligand. Inorganic Chemistry 56, 6512–6521. (doi:10.1021/acs.inorgchem.7b00626)"
+2017_47,[TbL2H],LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,1546797.cif,Proper,Square antiprism,1.221,-8.799999999999999,1.223872,2017,2017,10.1021/acs.inorgchem.7b00626,"Liang, Z., Damjanović, M., Kamila, M., Cosquer, G., Breedlove, B. K., Enders, M. & Yamashita, M. 2017 Proton Control of the Lanthanoid Single-Ion Magnet Behavior of a Double-Decker Complex with an Indolenine-Substituted Annulene Ligand. Inorganic Chemistry 56, 6512–6521. (doi:10.1021/acs.inorgchem.7b00626)"
+2017_48,"{[Pr2(2,5-pzdc)3(H2O)4]·6H2O}n",Other Families,,Pr3+,Oblate,Non-Kramers,100.0,9.0,4.0,4345353.cif,Proper,Spherical capped square antiprism,1.571,3.7,0.9081845,2017,2017,10.1021/acs.inorgchem.6b02774,"Marinho, M. V. et al. 2017 Photoluminescent and Slow Magnetic Relaxation Studies on Lanthanide(III)-2,5-pyrazinedicarboxylate Frameworks. Inorganic Chemistry 56, 2108–2123. (doi:10.1021/acs.inorgchem.6b02774)"
+2017_48,"{[Nd2(2,5-pzdc)3(H2O)4]·6H2O}n",Other Families,,Nd3+,Oblate,Kramers,100.0,9.0,4.0,4345354.cif,Proper,Spherical capped square antiprism,1.555,3.7,0.9081845,2017,2017,10.1021/acs.inorgchem.6b02774,"Marinho, M. V. et al. 2017 Photoluminescent and Slow Magnetic Relaxation Studies on Lanthanide(III)-2,5-pyrazinedicarboxylate Frameworks. Inorganic Chemistry 56, 2108–2123. (doi:10.1021/acs.inorgchem.6b02774)"
+2017_48,"{[Er2(2,5-pzdc)3(H2O)4]·5H2O}n",Other Families,,Er3+,Prolate,Kramers,100.0,9.0,4.0,4345160.cif,Proper,Muffin,0.786,0.5,0.9875125,2017,2017,10.1021/acs.inorgchem.6b02774,"Marinho, M. V. et al. 2017 Photoluminescent and Slow Magnetic Relaxation Studies on Lanthanide(III)-2,5-pyrazinedicarboxylate Frameworks. Inorganic Chemistry 56, 2108–2123. (doi:10.1021/acs.inorgchem.6b02774)"
+2017_49,Dy(BTFA)3(H2O)2,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,,Proper,,,,,2017,2017,10.1021/acs.inorgchem.7b00057,"Cen, P.-P., Zhang, S., Liu, X.-Y., Song, W.-M., Zhang, Y.-Q., Xie, G. & Chen, S.-P. 2017 Electrostatic Potential Determined Magnetic Dynamics Observed in Two Mononuclear β-Diketone Dysprosium(III) Single-Molecule Magnets. Inorganic Chemistry 56, 3644–3656. (doi:10.1021/acs.inorgchem.7b00057)"
+2017_49,Dy(BTFA)3(bpy),Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,Proper,,,,,2017,2017,10.1021/acs.inorgchem.7b00057,"Cen, P.-P., Zhang, S., Liu, X.-Y., Song, W.-M., Zhang, Y.-Q., Xie, G. & Chen, S.-P. 2017 Electrostatic Potential Determined Magnetic Dynamics Observed in Two Mononuclear β-Diketone Dysprosium(III) Single-Molecule Magnets. Inorganic Chemistry 56, 3644–3656. (doi:10.1021/acs.inorgchem.7b00057)"
+2017_50,[Dy(Cpttt)2][B(C6F5)4],Metallocene,,Dy3+,Oblate,Kramers,100.0,2.0,2.0,1542354.cif,Proper,,,,,2017,2017,10.1038/nature23447,"Goodwin, C. A. P., Ortu, F., Reta, D., Chilton, N. F. & Mills, D. P. 2017 Molecular magnetic hysteresis at 60 kelvin in dysprosocenium. Nature 548, 439–442. (doi:10.1038/nature23447)"
+2017_50,[Dy(Cpttt)2][B(C6F5)4],Metallocene,,Dy3+,Oblate,Kramers,8.0,2.0,2.0,,Isostructural,,,,,2017,2017,10.1038/nature23447,"Goodwin, C. A. P., Ortu, F., Reta, D., Chilton, N. F. & Mills, D. P. 2017 Molecular magnetic hysteresis at 60 kelvin in dysprosocenium. Nature 548, 439–442. (doi:10.1038/nature23447)"
+2017_51,[Hdap]4[Gd(H2O)(Hpic)3][Gd(Hpic)2(α2-P2W17O61)]·21H2O,POM,,Gd3+,Isotropic,Kramers,100.0,8.0,3.0,,Proper,,,,,2017,2017,10.1021/acs.cgd.7b00823,"Wang, X., Liu, Y., Jin, M., Wu, Y., Chen, L. & Zhao, J.-W. 2017 Two Families of Rare-Earth-Substituted Dawson-type Monomeric and Dimeric Phosphotungstates Functionalized by Carboxylic Ligands. Crystal Growth & Design 17, 5295–5308. (doi:10.1021/acs.cgd.7b00823)"
+2017_51,[Hdap]4[Tb(H2O)(Hpic)3][Tb(Hpic)2(α2-P2W17O61)]·21H2O,POM,,Tb3+,Oblate,Non-Kramers,100.0,8.0,3.0,1555345.cif,Proper,Square antiprism,0.514,-2.6,1.065338,2017,2017,10.1021/acs.cgd.7b00823,"Wang, X., Liu, Y., Jin, M., Wu, Y., Chen, L. & Zhao, J.-W. 2017 Two Families of Rare-Earth-Substituted Dawson-type Monomeric and Dimeric Phosphotungstates Functionalized by Carboxylic Ligands. Crystal Growth & Design 17, 5295–5308. (doi:10.1021/acs.cgd.7b00823)"
+2017_51,[Hdap]4[Dy(H2O)(Hpic)3][Dy(Hpic)2(α2-P2W17O61)]·21H2O,POM,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,1555346.cif,Proper,Square antiprism,0.539,-2.7,1.0678645,2017,2017,10.1021/acs.cgd.7b00823,"Wang, X., Liu, Y., Jin, M., Wu, Y., Chen, L. & Zhao, J.-W. 2017 Two Families of Rare-Earth-Substituted Dawson-type Monomeric and Dimeric Phosphotungstates Functionalized by Carboxylic Ligands. Crystal Growth & Design 17, 5295–5308. (doi:10.1021/acs.cgd.7b00823)"
+2017_51,[Hdap]4[Ho(H2O)(Hpic)3][Ho(Hpic)2(α2-P2W17O61)]·21H2O,POM,,Ho3+,Oblate,Non-Kramers,100.0,8.0,3.0,1555347.cif,Proper,Square antiprism,0.523,-3.0,1.07545,2017,2017,10.1021/acs.cgd.7b00823,"Wang, X., Liu, Y., Jin, M., Wu, Y., Chen, L. & Zhao, J.-W. 2017 Two Families of Rare-Earth-Substituted Dawson-type Monomeric and Dimeric Phosphotungstates Functionalized by Carboxylic Ligands. Crystal Growth & Design 17, 5295–5308. (doi:10.1021/acs.cgd.7b00823)"
+2017_51,[Hdap]4[Er(H2O)(Hpic)3][Er(Hpic)2(α2-P2W17O61)]·21H2O,POM,,Er3+,Prolate,Kramers,100.0,8.0,3.0,1555348.cif,Proper,Square antiprism,0.493,-2.7,1.0678645,2017,2017,10.1021/acs.cgd.7b00823,"Wang, X., Liu, Y., Jin, M., Wu, Y., Chen, L. & Zhao, J.-W. 2017 Two Families of Rare-Earth-Substituted Dawson-type Monomeric and Dimeric Phosphotungstates Functionalized by Carboxylic Ligands. Crystal Growth & Design 17, 5295–5308. (doi:10.1021/acs.cgd.7b00823)"
+2017_51,[Hdap]4[Tm(H2O)(Hpic)3][Tm(Hpic)2(α2-P2W17O61)]·21H2O,POM,,Tm3+,Prolate,Non-Kramers,100.0,8.0,3.0,1555820.cif,Proper,Square antiprism,0.59,-2.9,1.0729205,2017,2017,10.1021/acs.cgd.7b00823,"Wang, X., Liu, Y., Jin, M., Wu, Y., Chen, L. & Zhao, J.-W. 2017 Two Families of Rare-Earth-Substituted Dawson-type Monomeric and Dimeric Phosphotungstates Functionalized by Carboxylic Ligands. Crystal Growth & Design 17, 5295–5308. (doi:10.1021/acs.cgd.7b00823)"
+2017_51,[Hdap]4[Yb(H2O)(Hpic)3][Yb(Hpic)2(α2-P2W17O61)]·21H2O,POM,,Yb3+,Prolate,Kramers,100.0,8.0,3.0,1555821.cif,Proper,Square antiprism,0.489,-2.3,1.0577645,2017,2017,10.1021/acs.cgd.7b00823,"Wang, X., Liu, Y., Jin, M., Wu, Y., Chen, L. & Zhao, J.-W. 2017 Two Families of Rare-Earth-Substituted Dawson-type Monomeric and Dimeric Phosphotungstates Functionalized by Carboxylic Ligands. Crystal Growth & Design 17, 5295–5308. (doi:10.1021/acs.cgd.7b00823)"
+2017_52,[TbIII(hfac)3(dmbpy)],Diketonate,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,1554989.cif,Proper,Triangular dodecahedron,0.772,2.5,0.9378125,2017,2017,10.1016/j.inoche.2017.07.015,"Hu, P., Xiao, F.-P., Li, Y., Cao, J.-F., Chen, Z.-S., Zhu, L.-L. & Huang, W.-P. 2017 One mononuclear single-molecule magnet derived from Dy(III) and dmbpy (dmbpy = 4,4′-dimethyl-2,2′-dipyridyl). Inorganic Chemistry Communications 84, 207–211. (doi:10.1016/j.inoche.2017.07.015)"
+2017_52,[DyIII(hfac)3(dmbpy)],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1554990.cif,Proper,Triangular dodecahedron,0.484,2.3,0.9427645,2017,2017,10.1016/j.inoche.2017.07.015,"Hu, P., Xiao, F.-P., Li, Y., Cao, J.-F., Chen, Z.-S., Zhu, L.-L. & Huang, W.-P. 2017 One mononuclear single-molecule magnet derived from Dy(III) and dmbpy (dmbpy = 4,4′-dimethyl-2,2′-dipyridyl). Inorganic Chemistry Communications 84, 207–211. (doi:10.1016/j.inoche.2017.07.015)"
+2017_52,[ErIII(hfac)3(dmbpy)],Diketonate,,Er3+,Prolate,Kramers,100.0,8.0,4.0,1554992.cif,Proper,Triangular dodecahedron,0.517,2.0,0.9502,2017,2017,10.1016/j.inoche.2017.07.015,"Hu, P., Xiao, F.-P., Li, Y., Cao, J.-F., Chen, Z.-S., Zhu, L.-L. & Huang, W.-P. 2017 One mononuclear single-molecule magnet derived from Dy(III) and dmbpy (dmbpy = 4,4′-dimethyl-2,2′-dipyridyl). Inorganic Chemistry Communications 84, 207–211. (doi:10.1016/j.inoche.2017.07.015)"
+2017_53,Tb{Pc[N(C4H9)2]8}2,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2017,2017,10.1039/c7qi00332c,"Chen, Y. et al. 2017 Novel bis(phthalocyaninato) rare earth complexes with the bulky and strong electron-donating dibutylamino groups: synthesis, spectroscopy, and SMM properties. Inorganic Chemistry Frontiers 4, 1465–1471. (doi:10.1039/c7qi00332c)"
+2017_54,"Dy(5,6-DTFI)3(H2O)2H2O2CH2Cl2",Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,1539602.cif,Proper,Square antiprism,0.377,-2.1,1.0527205,2017,2017,10.1016/j.ica.2017.06.019,"Dong, Y., Li, W., Zou, X., Hou, G. & Li, G. 2017 Electron-donating effect dominated 5,6-dimethoxy-2-(2,2,2-trifluoroethyl)-1-indone dysprosium SMM. Inorganica Chimica Acta 466, 599–603. (doi:10.1016/j.ica.2017.06.019)"
+2017_54,"Tb(5,6-DTFI)3(H2O)2H2O2CH2Cl2",Diketonate,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,1539603.cif,Proper,Square antiprism,0.397,-1.9,1.0476805,2017,2017,10.1016/j.ica.2017.06.019,"Dong, Y., Li, W., Zou, X., Hou, G. & Li, G. 2017 Electron-donating effect dominated 5,6-dimethoxy-2-(2,2,2-trifluoroethyl)-1-indone dysprosium SMM. Inorganica Chimica Acta 466, 599–603. (doi:10.1016/j.ica.2017.06.019)"
+2017_54,"Ho(5,6-DTFI)3(H2O)2H2O2CH2Cl2",Diketonate,,Ho3+,Oblate,Non-Kramers,100.0,8.0,5.0,1539605.cif,Proper,Square antiprism,0.329,-2.3,1.0577645,2017,2017,10.1016/j.ica.2017.06.019,"Dong, Y., Li, W., Zou, X., Hou, G. & Li, G. 2017 Electron-donating effect dominated 5,6-dimethoxy-2-(2,2,2-trifluoroethyl)-1-indone dysprosium SMM. Inorganica Chimica Acta 466, 599–603. (doi:10.1016/j.ica.2017.06.019)"
+2017_55,[Li(THF)4][Pr(COT′′)2],Metallocene,,Pr3+,Oblate,Non-Kramers,100.0,2.0,2.0,1562466.cif,Proper,,,,,2017,2017,10.1002/ejic.201700878,"Lorenz, V. et al. 2017 Lanthanide(III) Sandwich and Half-Sandwich Complexes with Bulky Cyclooctatetraenyl Ligands: Synthesis, Structures, and Magnetic Properties. European Journal of Inorganic Chemistry 2017, 4840–4849. (doi:10.1002/ejic.201700878)"
+2017_55,[Li(DME)3][Tb(COT′′)2],Metallocene,,Tb3+,Oblate,Non-Kramers,100.0,2.0,2.0,1562467.cif,Proper,,,,,2017,2017,10.1002/ejic.201700878,"Lorenz, V. et al. 2017 Lanthanide(III) Sandwich and Half-Sandwich Complexes with Bulky Cyclooctatetraenyl Ligands: Synthesis, Structures, and Magnetic Properties. European Journal of Inorganic Chemistry 2017, 4840–4849. (doi:10.1002/ejic.201700878)"
+2017_55,[Li(TMEDA)2][Yb(COT′′)2],Metallocene,,Yb3+,Prolate,Kramers,100.0,2.0,2.0,1562468.cif,Proper,,,,,2017,2017,10.1002/ejic.201700878,"Lorenz, V. et al. 2017 Lanthanide(III) Sandwich and Half-Sandwich Complexes with Bulky Cyclooctatetraenyl Ligands: Synthesis, Structures, and Magnetic Properties. European Journal of Inorganic Chemistry 2017, 4840–4849. (doi:10.1002/ejic.201700878)"
+2017_56,[(Cpttt)2DyCl],Other Families,100.0,Dy3+,Oblate,Kramers,100.0,3.0,3.0,1551846.cif,Proper,Others,1.729,,,2017,2017,10.1002/anie.201705426,"Guo, F.-S., Day, B. M., Chen, Y.-C., Tong, M.-L., Mansikkamäki, A. & Layfield, R. A. 2017 A Dysprosium Metallocene Single-Molecule Magnet Functioning at the Axial Limit. Angewandte Chemie International Edition 56, 11445–11449. (doi:10.1002/anie.201705426)"
+2017_56,[(Cpttt)2Dy][B(C6F5)4],Metallocene,,Dy3+,Oblate,Kramers,100.0,2.0,2.0,2020929.cif,Proper,,,,,2017,2017,10.1002/anie.201705426,"Guo, F.-S., Day, B. M., Chen, Y.-C., Tong, M.-L., Mansikkamäki, A. & Layfield, R. A. 2017 A Dysprosium Metallocene Single-Molecule Magnet Functioning at the Axial Limit. Angewandte Chemie International Edition 56, 11445–11449. (doi:10.1002/anie.201705426)"
+2017_57,[DyLz2(salicylaldehyde)2]OH,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1513745.cif,Proper,Square antiprism,1.326,-4.3,1.1084245,2017,2017,10.1021/acs.inorgchem.7b01582,"Wu, J., Cador, O., Li, X.-L., Zhao, L., Le Guennic, B. & Tang, J. 2017 Axial Ligand Field in D4d Coordination Symmetry: Magnetic Relaxation of Dy SMMs Perturbed by Counteranions. Inorganic Chemistry 56, 11211–11219. (doi:10.1021/acs.inorgchem.7b01582)"
+2017_57,[DyLz2(salicylaldehyde)2]OH dilution,Other Families,0.0,Dy3+,Oblate,Kramers,6.7,8.0,4.0,,Isostructural,,,,,2017,2017,10.1021/acs.inorgchem.7b01582,"Wu, J., Cador, O., Li, X.-L., Zhao, L., Le Guennic, B. & Tang, J. 2017 Axial Ligand Field in D4d Coordination Symmetry: Magnetic Relaxation of Dy SMMs Perturbed by Counteranions. Inorganic Chemistry 56, 11211–11219. (doi:10.1021/acs.inorgchem.7b01582)"
+2017_57,[DyLz2(salicylaldehyde)2]Cl,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1513744.cif,Proper,Square antiprism,1.203,-6.600000000000001,1.167178,2017,2017,10.1021/acs.inorgchem.7b01582,"Wu, J., Cador, O., Li, X.-L., Zhao, L., Le Guennic, B. & Tang, J. 2017 Axial Ligand Field in D4d Coordination Symmetry: Magnetic Relaxation of Dy SMMs Perturbed by Counteranions. Inorganic Chemistry 56, 11211–11219. (doi:10.1021/acs.inorgchem.7b01582)"
+2017_57,[DyLz2(salicylaldehyde)2]Cl dilution,Other Families,0.0,Dy3+,Oblate,Kramers,5.8,8.0,4.0,,Isostructural,,,,,2017,2017,10.1021/acs.inorgchem.7b01582,"Wu, J., Cador, O., Li, X.-L., Zhao, L., Le Guennic, B. & Tang, J. 2017 Axial Ligand Field in D4d Coordination Symmetry: Magnetic Relaxation of Dy SMMs Perturbed by Counteranions. Inorganic Chemistry 56, 11211–11219. (doi:10.1021/acs.inorgchem.7b01582)"
+2017_57,[DyLz2(salicylaldehyde)2]Br,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1513743.cif,Proper,Square antiprism,1.377,-7.199999999999999,1.182592,2017,2017,10.1021/acs.inorgchem.7b01582,"Wu, J., Cador, O., Li, X.-L., Zhao, L., Le Guennic, B. & Tang, J. 2017 Axial Ligand Field in D4d Coordination Symmetry: Magnetic Relaxation of Dy SMMs Perturbed by Counteranions. Inorganic Chemistry 56, 11211–11219. (doi:10.1021/acs.inorgchem.7b01582)"
+2017_58,[HL][Dy(hfac)4]·0.5CH2Cl2,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1509190.cif,Proper,Square antiprism,0.819,-2.7,1.0678645,2017,2017,10.1002/ejic.201601501,"Speed, S. et al. 2017 Photophysical and Magnetic Properties in Complexes Containing 3d/4f Elements and Chiral Phenanthroline-Based Helicate-Like Ligands. European Journal of Inorganic Chemistry 2017, 2100–2111. (doi:10.1002/ejic.201601501)"
+2017_58,[HL][Yb(hfac)4]·CH2Cl2,Diketonate,,Yb3+,Prolate,Kramers,100.0,8.0,4.0,1509188.cif,Proper,Square antiprism,0.279,-2.6,1.065338,2017,2017,10.1002/ejic.201601501,"Speed, S. et al. 2017 Photophysical and Magnetic Properties in Complexes Containing 3d/4f Elements and Chiral Phenanthroline-Based Helicate-Like Ligands. European Journal of Inorganic Chemistry 2017, 2100–2111. (doi:10.1002/ejic.201601501)"
+2017_58,[HL][Dy(tta)4],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1509193.cif,Proper,Square antiprism,0.791,-3.6,1.090648,2017,2017,10.1002/ejic.201601501,"Speed, S. et al. 2017 Photophysical and Magnetic Properties in Complexes Containing 3d/4f Elements and Chiral Phenanthroline-Based Helicate-Like Ligands. European Journal of Inorganic Chemistry 2017, 2100–2111. (doi:10.1002/ejic.201601501)"
+2017_58,[HL][Yb(tta)4]·2.5C6H14,Diketonate,,Yb3+,Prolate,Kramers,100.0,8.0,4.0,1509192.cif,Proper,Square antiprism,0.833,-3.1,1.0779805,2017,2017,10.1002/ejic.201601501,"Speed, S. et al. 2017 Photophysical and Magnetic Properties in Complexes Containing 3d/4f Elements and Chiral Phenanthroline-Based Helicate-Like Ligands. European Journal of Inorganic Chemistry 2017, 2100–2111. (doi:10.1002/ejic.201601501)"
+2017_59,"[(1,3-C6H4{NC(Ph)NSiMe3}2)3Er2(μ-Cl)-Li(thf )3]",Other Families,,Er3+,Prolate,Kramers,100.0,,,1537909.cif,Proper,Others,12.614,,,2017,2017,10.1002/ejic.201700639,"Skvortsov, G. G., Tolpygin, A. O., Fukin, G. K., Long, J., Larionova, J., Cherkasov, A. V. & Trifonov, A. A. 2017 Rare-Earth Complexes Coordinated by ansa-Bis(amidinate) Ligands with m-Phenylene, 2,6-Pyridinediyl, and SiMe2 Linkers. European Journal of Inorganic Chemistry 2017, 4275–4284. (doi:10.1002/ejic.201700639)"
+2017_60,[GdL],Schiff Base,,Gd3+,Isotropic,Kramers,100.0,7.0,,,Proper,,,,,2017,2017,10.1039/c7dt02556d,"Craze, A. R. et al. 2017 Synthesis and characterisation of new tripodal lanthanide complexes and investigation of their optical and magnetic properties. Dalton Transactions 46, 12177–12184. (doi:10.1039/c7dt02556d)"
+2017_60,[DyL],Schiff Base,,Dy3+,Oblate,Kramers,100.0,7.0,,7044001.cif,Proper,Others,1.159,,,2017,2017,10.1039/c7dt02556d,"Craze, A. R. et al. 2017 Synthesis and characterisation of new tripodal lanthanide complexes and investigation of their optical and magnetic properties. Dalton Transactions 46, 12177–12184. (doi:10.1039/c7dt02556d)"
+2017_61,{[YbIII(3-pyridone)2(H2O)2][CoIII(CN)6]},Other Families,0.0,Yb3+,Prolate,Kramers,100.0,6.0,6.0,7043697.cif,Proper,Others,14.315,,,2017,2017,10.1039/c7dt02239e,"Chorazy, S., Rams, M., Wang, J., Sieklucka, B. & Ohkoshi, S. 2017 Octahedral Yb(iii) complexes embedded in [CoIII(CN)6]-bridged coordination chains: combining sensitized near-infrared fluorescence with slow magnetic relaxation. Dalton Transactions 46, 13668–13672. (doi:10.1039/c7dt02239e)"
+2017_62,[Yb(H3Bmshp)(DMF)2Cl2]·DMF·1.5H2O,Other Families,0.0,Yb3+,Prolate,Kramers,100.0,7.0,5.0,7044101.cif,Proper,Pentagonal bipyramid,0.866,-4.9,1.1237005,2017,2017,10.1039/c7dt02461d,"Wu, D.-Q., Shao, D., Wei, X.-Q., Shen, F.-X., Shi, L., Zhang, Y.-Q. & Wang, X.-Y. 2017 Single-ion magnetism in seven-coordinate YbIII complexes with distorted D5h coordination geometry. Dalton Transactions 46, 12884–12892. (doi:10.1039/c7dt02461d)"
+2017_62,[Yb(H3Bmshp)(DMF)2Cl2]·H4Bmshp,Other Families,0.0,Yb3+,Prolate,Kramers,100.0,7.0,5.0,7044100.cif,Proper,Pentagonal bipyramid,0.862,-0.6,1.015018,2017,2017,10.1039/c7dt02461d,"Wu, D.-Q., Shao, D., Wei, X.-Q., Shen, F.-X., Shi, L., Zhang, Y.-Q. & Wang, X.-Y. 2017 Single-ion magnetism in seven-coordinate YbIII complexes with distorted D5h coordination geometry. Dalton Transactions 46, 12884–12892. (doi:10.1039/c7dt02461d)"
+2017_63,[Zn(L)Cl]3Dy·MeOH·0.5H2O,TM near Ln,,Dy3+,Oblate,Kramers,100.0,6.0,3.0,7044168.cif,Proper,Octahedron,3.719,-0.5,1.0125125,2017,2017,10.1039/c7dt02409f,"Liu, M.-J., Yuan, J., Zhang, Y.-Q., Sun, H.-L., Liu, C.-M. & Kou, H.-Z. 2017 Chiral six-coordinate Dy(iii) and Tb(iii) complexes of an achiral ligand: structure, fluorescence, and magnetism. Dalton Transactions 46, 13035–13042. (doi:10.1039/c7dt02409f)"
+2017_63,[Zn(L)Cl]3Dy·1.5H2O,TM near Ln,,Dy3+,Oblate,Kramers,5.0,6.0,3.0,,Isostructural,,,,,2017,2017,10.1039/c7dt02409f,"Liu, M.-J., Yuan, J., Zhang, Y.-Q., Sun, H.-L., Liu, C.-M. & Kou, H.-Z. 2017 Chiral six-coordinate Dy(iii) and Tb(iii) complexes of an achiral ligand: structure, fluorescence, and magnetism. Dalton Transactions 46, 13035–13042. (doi:10.1039/c7dt02409f)"
+2017_63,[Zn(L)Cl]3Tb·1.5H2O,TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,6.0,3.0,7044170.cif,Proper,Octahedron,3.813,-0.7000000000000001,1.0175245,2017,2017,10.1039/c7dt02409f,"Liu, M.-J., Yuan, J., Zhang, Y.-Q., Sun, H.-L., Liu, C.-M. & Kou, H.-Z. 2017 Chiral six-coordinate Dy(iii) and Tb(iii) complexes of an achiral ligand: structure, fluorescence, and magnetism. Dalton Transactions 46, 13035–13042. (doi:10.1039/c7dt02409f)"
+2017_63,[Zn(L)Cl]3Tb·H2O,TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,6.0,3.0,7044171.cif,Proper,Octahedron,3.958,-0.8,1.020032,2017,2017,10.1039/c7dt02409f,"Liu, M.-J., Yuan, J., Zhang, Y.-Q., Sun, H.-L., Liu, C.-M. & Kou, H.-Z. 2017 Chiral six-coordinate Dy(iii) and Tb(iii) complexes of an achiral ligand: structure, fluorescence, and magnetism. Dalton Transactions 46, 13035–13042. (doi:10.1039/c7dt02409f)"
+2017_64,[Tb(H3L)(NO3)(H2O)](NO3)2·CH3CN,Schiff Base,,Tb3+,Oblate,Non-Kramers,100.0,9.0,3.0,7044793.cif,Proper,Muffin,2.21,-3.7,1.0931845,2017,2017,10.1039/c7dt03438e,"Fondo, M., Corredoira-Vázquez, J., Herrera-Lanzós, A., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M., Colacio, E. & Nuñez, C. 2017 Improving the SMM and luminescence properties of lanthanide complexes with LnO9 cores in the presence of ZnII: an emissive Zn2Dy single ion magnet. Dalton Transactions 46, 17000–17009. (doi:10.1039/c7dt03438e)"
+2017_64,[Dy(H3L)(NO3)(H2O)](NO3)2·0.5CH3CN,Schiff Base,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,7044796.cif,Proper,Muffin,1.834,-3.6,1.090648,2017,2017,10.1039/c7dt03438e,"Fondo, M., Corredoira-Vázquez, J., Herrera-Lanzós, A., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M., Colacio, E. & Nuñez, C. 2017 Improving the SMM and luminescence properties of lanthanide complexes with LnO9 cores in the presence of ZnII: an emissive Zn2Dy single ion magnet. Dalton Transactions 46, 17000–17009. (doi:10.1039/c7dt03438e)"
+2017_64,[Dy0.09Y0.91(H3L)(H2O)(NO3)](NO3)2,Schiff Base,,Dy3+,Oblate,Kramers,9.0,9.0,3.0,,Isostructural,,,,,2017,2017,10.1039/c7dt03438e,"Fondo, M., Corredoira-Vázquez, J., Herrera-Lanzós, A., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M., Colacio, E. & Nuñez, C. 2017 Improving the SMM and luminescence properties of lanthanide complexes with LnO9 cores in the presence of ZnII: an emissive Zn2Dy single ion magnet. Dalton Transactions 46, 17000–17009. (doi:10.1039/c7dt03438e)"
+2017_64,[Er(H3L)(NO3)(H2O)](NO3)2,Schiff Base,,Er3+,Prolate,Kramers,100.0,9.0,3.0,7044794.cif,Proper,Muffin,2.135,-3.8,1.095722,2017,2017,10.1039/c7dt03438e,"Fondo, M., Corredoira-Vázquez, J., Herrera-Lanzós, A., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M., Colacio, E. & Nuñez, C. 2017 Improving the SMM and luminescence properties of lanthanide complexes with LnO9 cores in the presence of ZnII: an emissive Zn2Dy single ion magnet. Dalton Transactions 46, 17000–17009. (doi:10.1039/c7dt03438e)"
+2017_64,[Zn2Dy(L)(NO3)3(OH)]·(CH3)2CO,Schiff Base,,Dy3+,Oblate,Kramers,100.0,9.0,5.0,7044795.cif,Proper,Spherical capped square antiprism,0.719,-3.3,1.0830445,2017,2017,10.1039/c7dt03438e,"Fondo, M., Corredoira-Vázquez, J., Herrera-Lanzós, A., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M., Colacio, E. & Nuñez, C. 2017 Improving the SMM and luminescence properties of lanthanide complexes with LnO9 cores in the presence of ZnII: an emissive Zn2Dy single ion magnet. Dalton Transactions 46, 17000–17009. (doi:10.1039/c7dt03438e)"
+2017_65,[BQ(DyCl2·THF3)2],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,7.0,6.0,7044263.cif,Proper,Pentagonal bipyramid,0.824,-3.6,1.090648,2017,2017,10.1039/c7dt02565c,"Moilanen, J. O., Mansikkamäki, A., Lahtinen, M., Guo, F.-S., Kalenius, E., Layfield, R. A. & Chibotaru, L. F. 2017 Thermal expansion and magnetic properties of benzoquinone-bridged dinuclear rare-earth complexes. Dalton Trans. 46, 13582–13589. (doi:10.1039/c7dt02565c)"
+2017_65,[BQ(DyCl2·THF3)2],Other Families,0.0,Dy3+,Oblate,Kramers,5.1,7.0,6.0,,Isostructural,,,,,2017,2017,10.1039/c7dt02565c,"Moilanen, J. O., Mansikkamäki, A., Lahtinen, M., Guo, F.-S., Kalenius, E., Layfield, R. A. & Chibotaru, L. F. 2017 Thermal expansion and magnetic properties of benzoquinone-bridged dinuclear rare-earth complexes. Dalton Trans. 46, 13582–13589. (doi:10.1039/c7dt02565c)"
+2017_66,[((HB(pz)3)2Dy)2(μ-ca)],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,3.0,1566106.cif,Proper,Triangular dodecahedron,0.774,0.8,0.980032,2017,2017,10.1039/c7dt02932b,"Dunstan, M. A., Rousset, E., Boulon, M.-E., Gable, R. W., Sorace, L. & Boskovic, C. 2017 Slow magnetisation relaxation in tetraoxolene-bridged rare earth complexes. Dalton Trans. 46, 13756–13767. (doi:10.1039/c7dt02932b)"
+2017_66,[((HB(pz)3)2Tb)2(μ-Me2dhbq)],Other Families,0.0,Tb3+,Oblate,Non-Kramers,100.0,8.0,3.0,,Isostructural,,,,,2017,2017,10.1039/c7dt02932b,"Dunstan, M. A., Rousset, E., Boulon, M.-E., Gable, R. W., Sorace, L. & Boskovic, C. 2017 Slow magnetisation relaxation in tetraoxolene-bridged rare earth complexes. Dalton Trans. 46, 13756–13767. (doi:10.1039/c7dt02932b)"
+2017_66,[((HB(pz)3)2Dy)2(μ-Me2dhbq)],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,3.0,,Isostructural,,,,,2017,2017,10.1039/c7dt02932b,"Dunstan, M. A., Rousset, E., Boulon, M.-E., Gable, R. W., Sorace, L. & Boskovic, C. 2017 Slow magnetisation relaxation in tetraoxolene-bridged rare earth complexes. Dalton Trans. 46, 13756–13767. (doi:10.1039/c7dt02932b)"
+2017_67,(nBu4N)2[Dy(NO3)5],Other Families,,Dy3+,Oblate,Kramers,100.0,,5.0,7044486.cif,Proper,Others,1.513,,,2017,2017,10.1039/c7dt02905e,"Chen, L., Zhou, J., Yuan, A. & Song, Y. 2017 Slow magnetic relaxation in luminescent mononuclear dysprosium(iii) and erbium(iii) pentanitrate complexes with the same LnO10 coordination geometry. Dalton Transactions 46, 15812–15818. (doi:10.1039/c7dt02905e)"
+2017_67,(nBu4N)2[Er(NO3)5],Other Families,,Er3+,Prolate,Kramers,100.0,,5.0,7044487.cif,Proper,Others,1.591,,,2017,2017,10.1039/c7dt02905e,"Chen, L., Zhou, J., Yuan, A. & Song, Y. 2017 Slow magnetic relaxation in luminescent mononuclear dysprosium(iii) and erbium(iii) pentanitrate complexes with the same LnO10 coordination geometry. Dalton Transactions 46, 15812–15818. (doi:10.1039/c7dt02905e)"
+2017_67,(nBu4N)2[Dy0.18Y0.82(NO3)5],Other Families,,Dy3+,Oblate,Kramers,18.0,,5.0,,Isostructural,,,,,2017,2017,10.1039/c7dt02905e,"Chen, L., Zhou, J., Yuan, A. & Song, Y. 2017 Slow magnetic relaxation in luminescent mononuclear dysprosium(iii) and erbium(iii) pentanitrate complexes with the same LnO10 coordination geometry. Dalton Transactions 46, 15812–15818. (doi:10.1039/c7dt02905e)"
+2017_67,(nBu4N)2[Er0.13Y0.87(NO3)5],Other Families,,Er3+,Prolate,Kramers,13.0,,5.0,,Isostructural,,,,,2017,2017,10.1039/c7dt02905e,"Chen, L., Zhou, J., Yuan, A. & Song, Y. 2017 Slow magnetic relaxation in luminescent mononuclear dysprosium(iii) and erbium(iii) pentanitrate complexes with the same LnO10 coordination geometry. Dalton Transactions 46, 15812–15818. (doi:10.1039/c7dt02905e)"
+2017_68,[Nd(W5O18)2]9-,POM,,Nd3+,Oblate,Kramers,100.0,8.0,2.0,,Proper,,,,,2017,2017,10.1021/acs.inorgchem.6b02312,"Vonci, M. et al. 2016 Magnetic Excitations in Polyoxotungstate-Supported Lanthanoid Single-Molecule Magnets: An Inelastic Neutron Scattering and ab Initio Study. Inorganic Chemistry 56, 378–394. (doi:10.1021/acs.inorgchem.6b02312)"
+2017_68,[Er(W5O18)2]9-,POM,,Er3+,Prolate,Kramers,100.0,8.0,2.0,4345125.cif,Proper,Square antiprism,0.056,-1.1,1.0275605,2017,2017,10.1021/acs.inorgchem.6b02312,"Vonci, M. et al. 2016 Magnetic Excitations in Polyoxotungstate-Supported Lanthanoid Single-Molecule Magnets: An Inelastic Neutron Scattering and ab Initio Study. Inorganic Chemistry 56, 378–394. (doi:10.1021/acs.inorgchem.6b02312)"
+2017_68,[Ho(W5O18)2]9-,POM,,Ho3+,Oblate,Non-Kramers,100.0,8.0,2.0,,Proper,,,,,2017,2017,10.1021/acs.inorgchem.6b02312,"Vonci, M. et al. 2016 Magnetic Excitations in Polyoxotungstate-Supported Lanthanoid Single-Molecule Magnets: An Inelastic Neutron Scattering and ab Initio Study. Inorganic Chemistry 56, 378–394. (doi:10.1021/acs.inorgchem.6b02312)"
+2017_69,[ZnII5Dy(OH)(L1)6(H2O)],Schiff Base,,Dy3+,Oblate,Kramers,100.0,9.0,9.0,,,,,,,2017,2017,10.1021/acs.cgd.6b01401,"Griffiths, K., Mayans, J., Shipman, M. A., Tizzard, G. J., Coles, S. J., Blight, B. A., Escuer, A. & Kostakis, G. E. 2017 Four New Families of Polynuclear Zn-Ln Coordination Clusters. Synthetic, Topological, Magnetic, and Luminescent Aspects. Crystal Growth & Design 17, 1524–1538. (doi:10.1021/acs.cgd.6b01401)"
+2017_69,[ZnII5Tb(OH)(L1)6(H2O)],Schiff Base,,Tb3+,Oblate,Non-Kramers,100.0,9.0,9.0,,,,,,,2017,2017,10.1021/acs.cgd.6b01401,"Griffiths, K., Mayans, J., Shipman, M. A., Tizzard, G. J., Coles, S. J., Blight, B. A., Escuer, A. & Kostakis, G. E. 2017 Four New Families of Polynuclear Zn-Ln Coordination Clusters. Synthetic, Topological, Magnetic, and Luminescent Aspects. Crystal Growth & Design 17, 1524–1538. (doi:10.1021/acs.cgd.6b01401)"
+2017_69,[Zn4Dy2(OH)2(L2)4(OAc)2(NO3)2(DMF)3]·DMF,Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,8.0,,,,,,,2017,2017,10.1021/acs.cgd.6b01401,"Griffiths, K., Mayans, J., Shipman, M. A., Tizzard, G. J., Coles, S. J., Blight, B. A., Escuer, A. & Kostakis, G. E. 2017 Four New Families of Polynuclear Zn-Ln Coordination Clusters. Synthetic, Topological, Magnetic, and Luminescent Aspects. Crystal Growth & Design 17, 1524–1538. (doi:10.1021/acs.cgd.6b01401)"
+2017_69,[Zn4Tb2(OH)2(L2)4(OAc)2(NO3)2(DMF)3]·DMF,Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,8.0,,,,,,,2017,2017,10.1021/acs.cgd.6b01401,"Griffiths, K., Mayans, J., Shipman, M. A., Tizzard, G. J., Coles, S. J., Blight, B. A., Escuer, A. & Kostakis, G. E. 2017 Four New Families of Polynuclear Zn-Ln Coordination Clusters. Synthetic, Topological, Magnetic, and Luminescent Aspects. Crystal Growth & Design 17, 1524–1538. (doi:10.1021/acs.cgd.6b01401)"
+2017_69,[Zn4Eu2(OH)2(L2)4(OAc)2(NO3)2(DMF)3]·DMF,Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,8.0,,,,,,,2017,2017,10.1021/acs.cgd.6b01401,"Griffiths, K., Mayans, J., Shipman, M. A., Tizzard, G. J., Coles, S. J., Blight, B. A., Escuer, A. & Kostakis, G. E. 2017 Four New Families of Polynuclear Zn-Ln Coordination Clusters. Synthetic, Topological, Magnetic, and Luminescent Aspects. Crystal Growth & Design 17, 1524–1538. (doi:10.1021/acs.cgd.6b01401)"
+2017_70,[Ho(CyPh2PO)2(H2O)5]I3·2(CyPh2PO)·H2O·EtOH,P=O,,Ho3+,Oblate,Non-Kramers,100.0,7.0,7.0,1529266.cif,Proper,Pentagonal bipyramid,0.16,2.8,0.930392,2017,2017,10.1002/anie.201701480,"Chen, Y.-C., Liu, J.-L., Wernsdorfer, W., Liu, D., Chibotaru, L. F., Chen, X.-M. & Tong, M.-L. 2017 Hyperfine-Interaction-Driven Suppression of Quantum Tunneling at Zero Field in a Holmium(III) Single-Ion Magnet. Angewandte Chemie International Edition 56, 4996–5000. (doi:10.1002/anie.201701480)"
+2017_70,[Ho(CyPh2PO)2(H2O)5]I3·2(CyPh2PO)·H2O·EtOH,P=O,,Ho3+,Oblate,Non-Kramers,3.0,7.0,7.0,,Isostructural,,,,,2017,2017,10.1002/anie.201701480,"Chen, Y.-C., Liu, J.-L., Wernsdorfer, W., Liu, D., Chibotaru, L. F., Chen, X.-M. & Tong, M.-L. 2017 Hyperfine-Interaction-Driven Suppression of Quantum Tunneling at Zero Field in a Holmium(III) Single-Ion Magnet. Angewandte Chemie International Edition 56, 4996–5000. (doi:10.1002/anie.201701480)"
+2017_71,Clamshell-Tb2,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2017,2017,10.1039/c7cc03553e,"Horii, Y., Katoh, K., Breedlove, B. K. & Yamashita, M. 2017 Elongation of magnetic relaxation times in a single-molecule magnet through intermetallic interactions: a clamshell-type dinuclear terbium(iii)-phthalocynaninato quadruple-decker complex. Chemical Communications 53, 8561–8564. (doi:10.1039/c7cc03553e)"
+2017_71,Clamshell-Tb2Cd,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2017,2017,10.1039/c7cc03553e,"Horii, Y., Katoh, K., Breedlove, B. K. & Yamashita, M. 2017 Elongation of magnetic relaxation times in a single-molecule magnet through intermetallic interactions: a clamshell-type dinuclear terbium(iii)-phthalocynaninato quadruple-decker complex. Chemical Communications 53, 8561–8564. (doi:10.1039/c7cc03553e)"
+2017_71,Clamshell-[Tb2]2+* one radical per Tb,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2017,2017,10.1039/c7cc03553e,"Horii, Y., Katoh, K., Breedlove, B. K. & Yamashita, M. 2017 Elongation of magnetic relaxation times in a single-molecule magnet through intermetallic interactions: a clamshell-type dinuclear terbium(iii)-phthalocynaninato quadruple-decker complex. Chemical Communications 53, 8561–8564. (doi:10.1039/c7cc03553e)"
+2017_71,Clamshell-monomer-[Tb]+*,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2017,2017,10.1039/c7cc03553e,"Horii, Y., Katoh, K., Breedlove, B. K. & Yamashita, M. 2017 Elongation of magnetic relaxation times in a single-molecule magnet through intermetallic interactions: a clamshell-type dinuclear terbium(iii)-phthalocynaninato quadruple-decker complex. Chemical Communications 53, 8561–8564. (doi:10.1039/c7cc03553e)"
+2017_72,[Gd2Pt3(H2O)2(SAc)12],TM near Ln,,Gd3+,Isotropic,Kramers,100.0,7.0,3.0,,,,,,,2017,2017,10.1002/chem.201702989,"Yoshida, T., Izougu, D. C., Iwasawa, D., Ogata, S., Hasegawa, M., Breedlove, B. K., Cosquer, G., Wernsdorfer, W. & Yamashita, M. 2017 Multiple Magnetic Relaxation Pathways and Dual-Emission Modulated by a Heterometallic Tb-Pt Bonding Environment. Chemistry - A European Journal 23, 10527–10531. (doi:10.1002/chem.201702989)"
+2017_72,[Tb2Pt3(H2O)2(SAc)12],TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,7.0,3.0,,,,,,,2017,2017,10.1002/chem.201702989,"Yoshida, T., Izougu, D. C., Iwasawa, D., Ogata, S., Hasegawa, M., Breedlove, B. K., Cosquer, G., Wernsdorfer, W. & Yamashita, M. 2017 Multiple Magnetic Relaxation Pathways and Dual-Emission Modulated by a Heterometallic Tb-Pt Bonding Environment. Chemistry - A European Journal 23, 10527–10531. (doi:10.1002/chem.201702989)"
+2017_72,[Tb0.2Y1.8Pt3(H2O)2(SAc)12],TM near Ln,,Tb3+,Oblate,Non-Kramers,20.0,7.0,3.0,,,,,,,2017,2017,10.1002/chem.201702989,"Yoshida, T., Izougu, D. C., Iwasawa, D., Ogata, S., Hasegawa, M., Breedlove, B. K., Cosquer, G., Wernsdorfer, W. & Yamashita, M. 2017 Multiple Magnetic Relaxation Pathways and Dual-Emission Modulated by a Heterometallic Tb-Pt Bonding Environment. Chemistry - A European Journal 23, 10527–10531. (doi:10.1002/chem.201702989)"
+2017_72,[Dy2Pt3(H2O)2(SAc)12],TM near Ln,,Dy3+,Oblate,Kramers,100.0,7.0,3.0,,,,,,,2017,2017,10.1002/chem.201702989,"Yoshida, T., Izougu, D. C., Iwasawa, D., Ogata, S., Hasegawa, M., Breedlove, B. K., Cosquer, G., Wernsdorfer, W. & Yamashita, M. 2017 Multiple Magnetic Relaxation Pathways and Dual-Emission Modulated by a Heterometallic Tb-Pt Bonding Environment. Chemistry - A European Journal 23, 10527–10531. (doi:10.1002/chem.201702989)"
+2018_0,[PPh4][Er{Pt(SAc)4}2],Other Families,0.0,Er3+,Prolate,Kramers,100.0,8.0,2.0,,,,,,,2018,2018,10.1002/adfm.201801846,"Perfetti, M. et al. 2018 Magnetic Anisotropy Switch: Easy Axis to Easy Plane Conversion and Vice Versa. Advanced Functional Materials 28, 1801846. (doi:10.1002/adfm.201801846)"
+2018_1,DyIII(depma)(NO3)3(hmpa)2,P=O,,Dy3+,Oblate,Kramers,100.0,9.0,6.0,1833630.cif,Proper,Muffin,2.735,-0.6,1.015018,2018,2018,10.1002/ange.201804102,"Huang, X.-D., Xu, Y., Fan, K., Bao, S.-S., Kurmoo, M. & Zheng, L.-M. 2018 Reversible SC-SC Transformation involving [4+4] Cycloaddition of Anthracene: A Single-Ion to Single-Molecule Magnet and Yellow-Green to Blue-White Emission. Angewandte Chemie 130, 8713–8717. (doi:10.1002/ange.201804102)"
+2018_1,DyIII(depma)(NO3)3(hmpa)2  dimer,P=O,,Dy3+,Oblate,Kramers,100.0,9.0,6.0,1833632.cif,Proper,Muffin,2.717,0.0,1.0,2018,2018,10.1002/ange.201804102,"Huang, X.-D., Xu, Y., Fan, K., Bao, S.-S., Kurmoo, M. & Zheng, L.-M. 2018 Reversible SC-SC Transformation involving [4+4] Cycloaddition of Anthracene: A Single-Ion to Single-Molecule Magnet and Yellow-Green to Blue-White Emission. Angewandte Chemie 130, 8713–8717. (doi:10.1002/ange.201804102)"
+2018_2,[Dy(Tppy)F(dioxane)](PF6),Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,4.0,1587613.cif,Proper,Others,12.734,,,2018,2018,10.1002/anie.201712139,"Norel, L., Darago, L. E., Le Guennic, B., Chakarawet, K., Gonzalez, M. I., Olshansky, J. H., Rigaut, S. & Long, J. R. 2018 A Terminal Fluoride Ligand Generates Axial Magnetic Anisotropy in Dysprosium Complexes. Angewandte Chemie 130, 1951–1956. (doi:10.1002/anie.201712139)"
+2018_2,[Dy(Tppy)F(pyridine)2](PF6),Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,4.0,1587614.cif,Proper,,,,,2018,2018,10.1002/anie.201712139,"Norel, L., Darago, L. E., Le Guennic, B., Chakarawet, K., Gonzalez, M. I., Olshansky, J. H., Rigaut, S. & Long, J. R. 2018 A Terminal Fluoride Ligand Generates Axial Magnetic Anisotropy in Dysprosium Complexes. Angewandte Chemie 130, 1951–1956. (doi:10.1002/anie.201712139)"
+2018_3,[(ArO)Tb(OAr’)],Other Families,0.0,Tb3+,Oblate,Non-Kramers,100.0,2.0,2.0,,,,,,,2018,2018,10.1002/ange.201801223,"Meng, Y.-S., Xu, L., Xiong, J., Yuan, Q., Liu, T., Wang, B.-W. & Gao, S. 2018 Low-Coordinate Single-Ion Magnets by Intercalation of Lanthanides into a Phenol Matrix. Angewandte Chemie 130, 4763–4766. (doi:10.1002/ange.201801223)"
+2018_3,[(ArO)Dy(OAr’)],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,2.0,2.0,,,,,,,2018,2018,10.1002/ange.201801223,"Meng, Y.-S., Xu, L., Xiong, J., Yuan, Q., Liu, T., Wang, B.-W. & Gao, S. 2018 Low-Coordinate Single-Ion Magnets by Intercalation of Lanthanides into a Phenol Matrix. Angewandte Chemie 130, 4763–4766. (doi:10.1002/ange.201801223)"
+2018_3,[(ArO)Ho(OAr’)],Other Families,0.0,Ho3+,Oblate,Non-Kramers,100.0,2.0,2.0,,,,,,,2018,2018,10.1002/ange.201801223,"Meng, Y.-S., Xu, L., Xiong, J., Yuan, Q., Liu, T., Wang, B.-W. & Gao, S. 2018 Low-Coordinate Single-Ion Magnets by Intercalation of Lanthanides into a Phenol Matrix. Angewandte Chemie 130, 4763–4766. (doi:10.1002/ange.201801223)"
+2018_3,[(ArO)Er(OAr’)],Other Families,0.0,Er3+,Prolate,Kramers,100.0,2.0,2.0,,,,,,,2018,2018,10.1002/ange.201801223,"Meng, Y.-S., Xu, L., Xiong, J., Yuan, Q., Liu, T., Wang, B.-W. & Gao, S. 2018 Low-Coordinate Single-Ion Magnets by Intercalation of Lanthanides into a Phenol Matrix. Angewandte Chemie 130, 4763–4766. (doi:10.1002/ange.201801223)"
+2018_3,[(ArO)Tm(OAr’)],Other Families,0.0,Tm3+,Prolate,Non-Kramers,100.0,2.0,2.0,,,,,,,2018,2018,10.1002/ange.201801223,"Meng, Y.-S., Xu, L., Xiong, J., Yuan, Q., Liu, T., Wang, B.-W. & Gao, S. 2018 Low-Coordinate Single-Ion Magnets by Intercalation of Lanthanides into a Phenol Matrix. Angewandte Chemie 130, 4763–4766. (doi:10.1002/ange.201801223)"
+2018_4,[Li(THF)4][TbFc3(THF)2Li2],TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,6.0,3.0,,,,,,,2018,2018,10.1002/ange.201804075,"Latendresse, T. P., Vieru, V., Wilkins, B. O., Bhuvanesh, N. S., Chibotaru, L. F. & Nippe, M. 2018 Magnetic Properties of a Terbium–[1]Ferrocenophane Complex: Analogies between Lanthanide–Ferrocenophane and Lanthanide–Bis‐phthalocyanine Complexes. Angewandte Chemie 130, 8296–8301. (doi:10.1002/ange.201804075)"
+2018_4,[Li(THF)4][Tb-YFc3(THF)2Li2] (Tb:Y= 1:12.2),TM near Ln,,Tb3+,Oblate,Non-Kramers,7.6,6.0,3.0,,,,,,,2018,2018,10.1002/ange.201804075,"Latendresse, T. P., Vieru, V., Wilkins, B. O., Bhuvanesh, N. S., Chibotaru, L. F. & Nippe, M. 2018 Magnetic Properties of a Terbium–[1]Ferrocenophane Complex: Analogies between Lanthanide–Ferrocenophane and Lanthanide–Bis‐phthalocyanine Complexes. Angewandte Chemie 130, 8296–8301. (doi:10.1002/ange.201804075)"
+2018_5,[Tb(NO3)3(H2O)3]·2L,Other Families,0.0,Tb3+,Oblate,Non-Kramers,100.0,9.0,6.0,,Isostructural,,,,,2018,2018,10.1002/asia.201800511,"Bazhina, E. S., Bovkunova, A. A., Medved’ko, A. V., Varaksina, E. A., Taidakov, I. V., Efimov, N. N., Kiskin, M. A. & Eremenko, I. L. 2018 Lanthanide(III) (Eu, Gd, Tb, Dy) Complexes Derived from 4-(Pyridin-2-yl)methyleneamino-1,2,4-triazole: Crystal Structure, Magnetic Properties, and Photoluminescence. Chemistry - An Asian Journal 13, 2060–2068. (doi:10.1002/asia.201800511)"
+2018_5,[Dy(NO3)3(H2O)3]·2L,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,6.0,,Isostructural,,,,,2018,2018,10.1002/asia.201800511,"Bazhina, E. S., Bovkunova, A. A., Medved’ko, A. V., Varaksina, E. A., Taidakov, I. V., Efimov, N. N., Kiskin, M. A. & Eremenko, I. L. 2018 Lanthanide(III) (Eu, Gd, Tb, Dy) Complexes Derived from 4-(Pyridin-2-yl)methyleneamino-1,2,4-triazole: Crystal Structure, Magnetic Properties, and Photoluminescence. Chemistry - An Asian Journal 13, 2060–2068. (doi:10.1002/asia.201800511)"
+2018_6,[Dy(H2O)5(HMPA)2]Cl3 HMPA-H2O,P=O,,Dy3+,Oblate,Kramers,100.0,7.0,7.0,7121940.cif,Proper,Pentagonal bipyramid,0.284,2.4,0.940288,2018,2018,10.1039/c8cc03929a,"Canaj, A. B., Singh, M. K., Wilson, C., Rajaraman, G. & Murrie, M. 2018 Chemical and in silico tuning of the magnetisation reversal barrier in pentagonal bipyramidal Dy(iii) single-ion magnets. Chemical Communications 54, 8273–8276. (doi:10.1039/c8cc03929a)"
+2018_6,1@Y,P=O,,Dy3+,Oblate,Kramers,5.0,7.0,7.0,,Isostructural,,,,,2018,2018,10.1039/c8cc03929a,"Canaj, A. B., Singh, M. K., Wilson, C., Rajaraman, G. & Murrie, M. 2018 Chemical and in silico tuning of the magnetisation reversal barrier in pentagonal bipyramidal Dy(iii) single-ion magnets. Chemical Communications 54, 8273–8276. (doi:10.1039/c8cc03929a)"
+2018_6,[Dy(H2O)5(HMPA)2]I3-2HMPA,P=O,,Dy3+,Oblate,Kramers,100.0,7.0,7.0,7121941.cif,Proper,Pentagonal bipyramid,0.13,2.9,0.9279205,2018,2018,10.1039/c8cc03929a,"Canaj, A. B., Singh, M. K., Wilson, C., Rajaraman, G. & Murrie, M. 2018 Chemical and in silico tuning of the magnetisation reversal barrier in pentagonal bipyramidal Dy(iii) single-ion magnets. Chemical Communications 54, 8273–8276. (doi:10.1039/c8cc03929a)"
+2018_6,2@Y,P=O,,Dy3+,Oblate,Kramers,5.0,7.0,7.0,,Isostructural,,,,,2018,2018,10.1039/c8cc03929a,"Canaj, A. B., Singh, M. K., Wilson, C., Rajaraman, G. & Murrie, M. 2018 Chemical and in silico tuning of the magnetisation reversal barrier in pentagonal bipyramidal Dy(iii) single-ion magnets. Chemical Communications 54, 8273–8276. (doi:10.1039/c8cc03929a)"
+2018_7,[Tb(Cpttt)2(BH4)],Other Families,100.0,Tb3+,Oblate,Non-Kramers,100.0,4.0,3.0,7122028.cif,Proper,,,,,2018,2018,10.1039/c8cc05261a,"Goodwin, C. A. P., Reta, D., Ortu, F., Liu, J., Chilton, N. F. & Mills, D. P. 2018 Terbocenium: completing a heavy lanthanide metallocenium cation family with an alternative anion abstraction strategy. Chemical Communications 54, 9182–9185. (doi:10.1039/c8cc05261a)"
+2018_7,[Tb(Cpttt)2][B(C6F5)4],Metallocene,,Tb3+,Oblate,Non-Kramers,100.0,2.0,2.0,7122027.cif,Proper,,,,,2018,2018,10.1039/c8cc05261a,"Goodwin, C. A. P., Reta, D., Ortu, F., Liu, J., Chilton, N. F. & Mills, D. P. 2018 Terbocenium: completing a heavy lanthanide metallocenium cation family with an alternative anion abstraction strategy. Chemical Communications 54, 9182–9185. (doi:10.1039/c8cc05261a)"
+2018_8,[CoIII(Tp)2]1.3[Tb(NO3)2(dbm)2](NO3)0.3,Diketonate,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,7122135.cif,Proper,Others,3.264,,,2018,2018,10.1039/c8cc04565h,"Alexandropoulos, D. I., Schulte, K. A., Vignesh, K. R. & Dunbar, K. R. 2018 Slow magnetic dynamics in a family of mononuclear lanthanide complexes exhibiting the rare cubic coordination geometry. Chemical Communications 54, 10136–10139. (doi:10.1039/c8cc04565h)"
+2018_8,[CoIII(Tp)2]1.3[Dy(NO3)2(dbm)2](NO3)0.3,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7122134.cif,Proper,Others,3.075,,,2018,2018,10.1039/c8cc04565h,"Alexandropoulos, D. I., Schulte, K. A., Vignesh, K. R. & Dunbar, K. R. 2018 Slow magnetic dynamics in a family of mononuclear lanthanide complexes exhibiting the rare cubic coordination geometry. Chemical Communications 54, 10136–10139. (doi:10.1039/c8cc04565h)"
+2018_8,[CoIII(Tp)2]1.3[Er(NO3)2(dbm)2](NO3)0.3,Diketonate,,Er3+,Prolate,Kramers,100.0,8.0,4.0,7122137.cif,Proper,Others,3.6,,,2018,2018,10.1039/c8cc04565h,"Alexandropoulos, D. I., Schulte, K. A., Vignesh, K. R. & Dunbar, K. R. 2018 Slow magnetic dynamics in a family of mononuclear lanthanide complexes exhibiting the rare cubic coordination geometry. Chemical Communications 54, 10136–10139. (doi:10.1039/c8cc04565h)"
+2018_9,[Dy4(H4L´)4(H2L)4]Br12·28H2O,Other Families,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,,,,,,,2018,2018,10.1039/c8cc06411c,"Wu, J., Guo, M., Li, X.-L., Zhao, L., Sun, Q.-F., Layfield, R. A. & Tang, J. 2018 From double-shelled grids to supramolecular frameworks. Chemical Communications 54, 12097–12100. (doi:10.1039/c8cc06411c)"
+2018_10,crown ether substituted double-decker complex: [1]0,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,1570334.cif,Proper,Square antiprism,0.691,-7.000000000000001,1.17745,2018,2018,10.1002/chem.201705378,"Horii, Y., Kishiue, S., Damjanović, M., Katoh, K., Breedlove, B. K., Enders, M. & Yamashita, M. 2018 Supramolecular Approach for Enhancing Single-Molecule Magnet Properties of Terbium(III)-Phthalocyaninato Double-Decker Complexes with Crown Moieties. Chemistry - A European Journal 24, 4320–4327. (doi:10.1002/chem.201705378)"
+2018_10,[1_2K_4]^4+,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2018,2018,10.1002/chem.201705378,"Horii, Y., Kishiue, S., Damjanović, M., Katoh, K., Breedlove, B. K., Enders, M. & Yamashita, M. 2018 Supramolecular Approach for Enhancing Single-Molecule Magnet Properties of Terbium(III)-Phthalocyaninato Double-Decker Complexes with Crown Moieties. Chemistry - A European Journal 24, 4320–4327. (doi:10.1002/chem.201705378)"
+2018_11,Tb(Pc){H[Pc(a-OC4H9)8]},LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,1558638.cif,Proper,Square antiprism,2.28,-7.9,1.2006205,2018,2018,10.1002/chem.201800408,"Chen, Y., Liu, C., Ma, F., Qi, D., Liu, Q., Sun, H.-L. & Jiang, J. 2018 Fabricating Bis(phthalocyaninato) Terbium SIM into Tetrakis(phthalocyaninato) Terbium SMM with Enhanced Performance through Sodium Coordination. Chemistry - A European Journal 24, 8066–8070. (doi:10.1002/chem.201800408)"
+2018_11,Na2{Tb(Pc)[Pc(a-OC4H9)8]}2,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,1558639.cif,Proper,Square antiprism,1.278,-6.9,1.1748805,2018,2018,10.1002/chem.201800408,"Chen, Y., Liu, C., Ma, F., Qi, D., Liu, Q., Sun, H.-L. & Jiang, J. 2018 Fabricating Bis(phthalocyaninato) Terbium SIM into Tetrakis(phthalocyaninato) Terbium SMM with Enhanced Performance through Sodium Coordination. Chemistry - A European Journal 24, 8066–8070. (doi:10.1002/chem.201800408)"
+2018_12,[PrGa6(H2shi)(Hshi)(shi)7(C5H5N)],Other Families,,Pr3+,Oblate,Non-Kramers,100.0,9.0,9.0,,,,,,,2018,2018,10.1002/chem.201801355,"Lutter, J. C., Eliseeva, S. V., Kampf, J. W., Petoud, S. & Pecoraro, V. L. 2018 A Unique LnIII{[3.3.1]GaIII Metallacryptate} Series That Possesses Properties of Slow Magnetic Relaxation and Visible/Near-Infrared Luminescence. Chemistry - A European Journal 24, 10773–10783. (doi:10.1002/chem.201801355)"
+2018_12,[NdGa6(H2shi)(Hshi)(shi)7(C5H5N)],Other Families,,Nd3+,Oblate,Kramers,100.0,9.0,9.0,,,,,,,2018,2018,10.1002/chem.201801355,"Lutter, J. C., Eliseeva, S. V., Kampf, J. W., Petoud, S. & Pecoraro, V. L. 2018 A Unique LnIII{[3.3.1]GaIII Metallacryptate} Series That Possesses Properties of Slow Magnetic Relaxation and Visible/Near-Infrared Luminescence. Chemistry - A European Journal 24, 10773–10783. (doi:10.1002/chem.201801355)"
+2018_12,[SmGa6(H2shi)(Hshi)(shi)7(C5H5N)],Other Families,,Sm3+,Prolate,Kramers,100.0,9.0,9.0,,,,,,,2018,2018,10.1002/chem.201801355,"Lutter, J. C., Eliseeva, S. V., Kampf, J. W., Petoud, S. & Pecoraro, V. L. 2018 A Unique LnIII{[3.3.1]GaIII Metallacryptate} Series That Possesses Properties of Slow Magnetic Relaxation and Visible/Near-Infrared Luminescence. Chemistry - A European Journal 24, 10773–10783. (doi:10.1002/chem.201801355)"
+2018_12,[GdGa6(H2shi)(Hshi)(shi)7(C5H5N)],Other Families,,Gd3+,Isotropic,Kramers,100.0,9.0,9.0,,,,,,,2018,2018,10.1002/chem.201801355,"Lutter, J. C., Eliseeva, S. V., Kampf, J. W., Petoud, S. & Pecoraro, V. L. 2018 A Unique LnIII{[3.3.1]GaIII Metallacryptate} Series That Possesses Properties of Slow Magnetic Relaxation and Visible/Near-Infrared Luminescence. Chemistry - A European Journal 24, 10773–10783. (doi:10.1002/chem.201801355)"
+2018_12,[TbGa6(H2shi)(Hshi)(shi)7(C5H5N)],Other Families,,Tb3+,Oblate,Non-Kramers,100.0,9.0,9.0,,,,,,,2018,2018,10.1002/chem.201801355,"Lutter, J. C., Eliseeva, S. V., Kampf, J. W., Petoud, S. & Pecoraro, V. L. 2018 A Unique LnIII{[3.3.1]GaIII Metallacryptate} Series That Possesses Properties of Slow Magnetic Relaxation and Visible/Near-Infrared Luminescence. Chemistry - A European Journal 24, 10773–10783. (doi:10.1002/chem.201801355)"
+2018_12,[DyGa6(H2shi)(Hshi)(shi)7(C5H5N)],Other Families,,Dy3+,Oblate,Kramers,100.0,9.0,9.0,,,,,,,2018,2018,10.1002/chem.201801355,"Lutter, J. C., Eliseeva, S. V., Kampf, J. W., Petoud, S. & Pecoraro, V. L. 2018 A Unique LnIII{[3.3.1]GaIII Metallacryptate} Series That Possesses Properties of Slow Magnetic Relaxation and Visible/Near-Infrared Luminescence. Chemistry - A European Journal 24, 10773–10783. (doi:10.1002/chem.201801355)"
+2018_12,[HoGa6(H2shi)(Hshi)(shi)7(C5H5N)],Other Families,,Ho3+,Oblate,Non-Kramers,100.0,9.0,9.0,,,,,,,2018,2018,10.1002/chem.201801355,"Lutter, J. C., Eliseeva, S. V., Kampf, J. W., Petoud, S. & Pecoraro, V. L. 2018 A Unique LnIII{[3.3.1]GaIII Metallacryptate} Series That Possesses Properties of Slow Magnetic Relaxation and Visible/Near-Infrared Luminescence. Chemistry - A European Journal 24, 10773–10783. (doi:10.1002/chem.201801355)"
+2018_12,[ErGa6(H2shi)(Hshi)(shi)7(C5H5N)],Other Families,,Er3+,Prolate,Kramers,100.0,9.0,9.0,,,,,,,2018,2018,10.1002/chem.201801355,"Lutter, J. C., Eliseeva, S. V., Kampf, J. W., Petoud, S. & Pecoraro, V. L. 2018 A Unique LnIII{[3.3.1]GaIII Metallacryptate} Series That Possesses Properties of Slow Magnetic Relaxation and Visible/Near-Infrared Luminescence. Chemistry - A European Journal 24, 10773–10783. (doi:10.1002/chem.201801355)"
+2018_12,[TmGa6(H2shi)(Hshi)(shi)7(C5H5N)],Other Families,,Tm3+,Prolate,Non-Kramers,100.0,9.0,9.0,,,,,,,2018,2018,10.1002/chem.201801355,"Lutter, J. C., Eliseeva, S. V., Kampf, J. W., Petoud, S. & Pecoraro, V. L. 2018 A Unique LnIII{[3.3.1]GaIII Metallacryptate} Series That Possesses Properties of Slow Magnetic Relaxation and Visible/Near-Infrared Luminescence. Chemistry - A European Journal 24, 10773–10783. (doi:10.1002/chem.201801355)"
+2018_12,[YbGa6(H2shi)(Hshi)(shi)7(C5H5N)],Other Families,,Yb3+,Prolate,Kramers,100.0,9.0,9.0,,,,,,,2018,2018,10.1002/chem.201801355,"Lutter, J. C., Eliseeva, S. V., Kampf, J. W., Petoud, S. & Pecoraro, V. L. 2018 A Unique LnIII{[3.3.1]GaIII Metallacryptate} Series That Possesses Properties of Slow Magnetic Relaxation and Visible/Near-Infrared Luminescence. Chemistry - A European Journal 24, 10773–10783. (doi:10.1002/chem.201801355)"
+2018_13,[Nd(18-c-6)(Cl4Cat)(NO3)]·MeCN,Crown Ether,,Nd3+,Oblate,Kramers,100.0,10.0,3.0,1836752.cif,Proper,Others,13.172,,,2018,2018,10.1002/chem.201802779,"Rousset, E., Piccardo, M., Boulon, M.-E., Gable, R. W., Soncini, A., Sorace, L. & Boskovic, C. 2018 Slow Magnetic Relaxation in Lanthanoid Crown Ether Complexes: Interplay of Raman and Anomalous Phonon Bottleneck Processes. Chemistry - A European Journal 24, 14768–14785. (doi:10.1002/chem.201802779)"
+2018_13,[Gd(18-c-6)(Cl4Cat)(NO3)]·MeCN,Crown Ether,,Gd3+,Isotropic,Kramers,100.0,10.0,3.0,,Proper,,,,,2018,2018,10.1002/chem.201802779,"Rousset, E., Piccardo, M., Boulon, M.-E., Gable, R. W., Soncini, A., Sorace, L. & Boskovic, C. 2018 Slow Magnetic Relaxation in Lanthanoid Crown Ether Complexes: Interplay of Raman and Anomalous Phonon Bottleneck Processes. Chemistry - A European Journal 24, 14768–14785. (doi:10.1002/chem.201802779)"
+2018_13,[Tb(18-c-6)(Cl4Cat)(NO3)]·MeCN,Crown Ether,,Tb3+,Oblate,Non-Kramers,100.0,10.0,3.0,1836754.cif,Proper,Others,13.306,,,2018,2018,10.1002/chem.201802779,"Rousset, E., Piccardo, M., Boulon, M.-E., Gable, R. W., Soncini, A., Sorace, L. & Boskovic, C. 2018 Slow Magnetic Relaxation in Lanthanoid Crown Ether Complexes: Interplay of Raman and Anomalous Phonon Bottleneck Processes. Chemistry - A European Journal 24, 14768–14785. (doi:10.1002/chem.201802779)"
+2018_13,[Dy(18-c-6)(Cl4Cat)(NO3)]·MeCN,Crown Ether,,Dy3+,Oblate,Kramers,100.0,,3.0,1836755.cif,Proper,Others,8.868,,,2018,2018,10.1002/chem.201802779,"Rousset, E., Piccardo, M., Boulon, M.-E., Gable, R. W., Soncini, A., Sorace, L. & Boskovic, C. 2018 Slow Magnetic Relaxation in Lanthanoid Crown Ether Complexes: Interplay of Raman and Anomalous Phonon Bottleneck Processes. Chemistry - A European Journal 24, 14768–14785. (doi:10.1002/chem.201802779)"
+2018_13,[Nd(18-c-6)(Br4Cat)(NO3)]·MeCN,Crown Ether,,Nd3+,Oblate,Kramers,100.0,,3.0,,Isostructural,,,,,2018,2018,10.1002/chem.201802779,"Rousset, E., Piccardo, M., Boulon, M.-E., Gable, R. W., Soncini, A., Sorace, L. & Boskovic, C. 2018 Slow Magnetic Relaxation in Lanthanoid Crown Ether Complexes: Interplay of Raman and Anomalous Phonon Bottleneck Processes. Chemistry - A European Journal 24, 14768–14785. (doi:10.1002/chem.201802779)"
+2018_13,[Gd(18-c-6)(Br4Cat)(NO3)]·MeCN,Crown Ether,,Gd3+,Isotropic,Kramers,100.0,,3.0,,Isostructural,,,,,2018,2018,10.1002/chem.201802779,"Rousset, E., Piccardo, M., Boulon, M.-E., Gable, R. W., Soncini, A., Sorace, L. & Boskovic, C. 2018 Slow Magnetic Relaxation in Lanthanoid Crown Ether Complexes: Interplay of Raman and Anomalous Phonon Bottleneck Processes. Chemistry - A European Journal 24, 14768–14785. (doi:10.1002/chem.201802779)"
+2018_13,[Tb(18-c-6)(Br4Cat)(NO3)]·MeCN,Crown Ether,,Tb3+,Oblate,Non-Kramers,100.0,,3.0,,Isostructural,,,,,2018,2018,10.1002/chem.201802779,"Rousset, E., Piccardo, M., Boulon, M.-E., Gable, R. W., Soncini, A., Sorace, L. & Boskovic, C. 2018 Slow Magnetic Relaxation in Lanthanoid Crown Ether Complexes: Interplay of Raman and Anomalous Phonon Bottleneck Processes. Chemistry - A European Journal 24, 14768–14785. (doi:10.1002/chem.201802779)"
+2018_13,[(Tb-La)(18-c-6)(Br4Cat)(NO3)]·MeCN,Crown Ether,,Tb3+,Oblate,Non-Kramers,7.0,,3.0,,Isostructural,,,,,2018,2018,10.1002/chem.201802779,"Rousset, E., Piccardo, M., Boulon, M.-E., Gable, R. W., Soncini, A., Sorace, L. & Boskovic, C. 2018 Slow Magnetic Relaxation in Lanthanoid Crown Ether Complexes: Interplay of Raman and Anomalous Phonon Bottleneck Processes. Chemistry - A European Journal 24, 14768–14785. (doi:10.1002/chem.201802779)"
+2018_13,[Dy(18-c-6)(Br4Cat)(NO3)]·MeCN,Crown Ether,,Dy3+,Oblate,Kramers,100.0,,3.0,,Isostructural,,,,,2018,2018,10.1002/chem.201802779,"Rousset, E., Piccardo, M., Boulon, M.-E., Gable, R. W., Soncini, A., Sorace, L. & Boskovic, C. 2018 Slow Magnetic Relaxation in Lanthanoid Crown Ether Complexes: Interplay of Raman and Anomalous Phonon Bottleneck Processes. Chemistry - A European Journal 24, 14768–14785. (doi:10.1002/chem.201802779)"
+2018_13,[(Dy-La)(18-c-6)(Br4Cat)(NO3)]·MeCN,Crown Ether,,Dy3+,Oblate,Kramers,10.0,,3.0,,Isostructural,,,,,2018,2018,10.1002/chem.201802779,"Rousset, E., Piccardo, M., Boulon, M.-E., Gable, R. W., Soncini, A., Sorace, L. & Boskovic, C. 2018 Slow Magnetic Relaxation in Lanthanoid Crown Ether Complexes: Interplay of Raman and Anomalous Phonon Bottleneck Processes. Chemistry - A European Journal 24, 14768–14785. (doi:10.1002/chem.201802779)"
+2018_14,[Dy{η4-C4(SiMe3)4}{η4-C4(SiMe3)3-k-(CH2SiMe2}]2-,Metallocene,,Dy3+,Oblate,Kramers,100.0,3.0,2.0,1840737.cif,Proper,Others,21.445,,,2018,2018,10.1002/chem.201804776,"Day, B. M., Guo, F.-S., Giblin, S. R., Sekiguchi, A., Mansikkamäki, A. & Layfield, R. A. 2018 Rare-Earth Cyclobutadienyl Sandwich Complexes: Synthesis, Structure and Dynamic Magnetic Properties. Chemistry - A European Journal 24, 16779–16782. (doi:10.1002/chem.201804776)"
+2018_15,"Na[Tb(5,7Cl2q)4]",Other Families,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,1547705.cif,Isostructural,Biaugmented trigonal prism,2.191,-5.4,1.136458,2018,2018,10.1039/c7sc03463f,"Miralles, S. G. et al. 2018 Sublimable chloroquinolinate lanthanoid single-ion magnets deposited on ferromagnetic electrodes. Chemical Science 9, 199–208. (doi:10.1039/c7sc03463f)"
+2018_15,"Na[Dy(5,7Cl2q)4]",Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,Proper,,,,,2018,2018,10.1039/c7sc03463f,"Miralles, S. G. et al. 2018 Sublimable chloroquinolinate lanthanoid single-ion magnets deposited on ferromagnetic electrodes. Chemical Science 9, 199–208. (doi:10.1039/c7sc03463f)"
+2018_15,"NEt4[Dy(5,7Cl2q)4]",Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1547707.cif,Proper,Others,2.167,,,2018,2018,10.1039/c7sc03463f,"Miralles, S. G. et al. 2018 Sublimable chloroquinolinate lanthanoid single-ion magnets deposited on ferromagnetic electrodes. Chemical Science 9, 199–208. (doi:10.1039/c7sc03463f)"
+2018_15,"K0.5(NEt4)0.5[Dy(5,7Cl2q)4]",Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1547706.cif,Proper,Triangular dodecahedron,0.916,6.3,0.8444845,2018,2018,10.1039/c7sc03463f,"Miralles, S. G. et al. 2018 Sublimable chloroquinolinate lanthanoid single-ion magnets deposited on ferromagnetic electrodes. Chemical Science 9, 199–208. (doi:10.1039/c7sc03463f)"
+2018_16,[(HBpz3)2Dy(m-CA)Dy(HBpz3)2]·2CH2Cl2,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,3.0,,Proper,,,,,2018,2018,10.1039/c7sc04873d,"Zhang, P. et al. 2018 Exchange coupling and single molecule magnetism in redox-active tetraoxolene-bridged dilanthanide complexes. Chemical Science 9, 1221–1230. (doi:10.1039/c7sc04873d)"
+2018_17,Er(COT)I(THF)2,Other Families,100.0,Er3+,Prolate,Kramers,100.0,4.0,4.0,1549742.cif,Proper,Others,20.253,,,2018,2018,10.1039/c8sc01361f,"Hilgar, J. D., Bernbeck, M. G., Flores, B. S. & Rinehart, J. D. 2018 Metal–ligand pair anisotropy in a series of mononuclear Er–COT complexes. Chemical Science 9, 7204–7209. (doi:10.1039/c8sc01361f)"
+2018_17,Er(COT)I(Py)2,Other Families,100.0,Er3+,Prolate,Kramers,100.0,4.0,4.0,1549743.cif,Proper,Others,2.257,,,2018,2018,10.1039/c8sc01361f,"Hilgar, J. D., Bernbeck, M. G., Flores, B. S. & Rinehart, J. D. 2018 Metal–ligand pair anisotropy in a series of mononuclear Er–COT complexes. Chemical Science 9, 7204–7209. (doi:10.1039/c8sc01361f)"
+2018_17,Er(COT)I(MeCN)2,Other Families,100.0,Er3+,Prolate,Kramers,100.0,4.0,4.0,1549741.cif,Proper,Others,8.208,,,2018,2018,10.1039/c8sc01361f,"Hilgar, J. D., Bernbeck, M. G., Flores, B. S. & Rinehart, J. D. 2018 Metal–ligand pair anisotropy in a series of mononuclear Er–COT complexes. Chemical Science 9, 7204–7209. (doi:10.1039/c8sc01361f)"
+2018_17,Er(COT)(Tp*),Other Families,100.0,Er3+,Prolate,Kramers,100.0,4.0,2.0,1549744.cif,Proper,Others,2.397,,,2018,2018,10.1039/c8sc01361f,"Hilgar, J. D., Bernbeck, M. G., Flores, B. S. & Rinehart, J. D. 2018 Metal–ligand pair anisotropy in a series of mononuclear Er–COT complexes. Chemical Science 9, 7204–7209. (doi:10.1039/c8sc01361f)"
+2018_18,(Dsp)Er(COT),Other Families,100.0,Er3+,Prolate,Kramers,100.0,2.0,2.0,1835955.cif,Proper,Others,17.99,,,2018,2018,10.1039/c8sc01626g,"Chen, S.-M., Xiong, J., Zhang, Y.-Q., Yuan, Q., Wang, B.-W. & Gao, S. 2018 A soft phosphorus atom to ‘harden’ an erbium(iii) single-ion magnet. Chemical Science 9, 7540–7545. (doi:10.1039/c8sc01626g)"
+2018_19,[Tb(NO3)3(H2O)3]·2L,Other Families,0.0,Tb3+,Oblate,Non-Kramers,100.0,9.0,6.0,,Isostructural,,,,,2018,2018,10.1002/asia.201800511,"Bazhina, E. S., Bovkunova, A. A., Medved’ko, A. V., Varaksina, E. A., Taidakov, I. V., Efimov, N. N., Kiskin, M. A. & Eremenko, I. L. 2018 Lanthanide(III) (Eu, Gd, Tb, Dy) Complexes Derived from 4-(Pyridin-2-yl)methyleneamino-1,2,4-triazole: Crystal Structure, Magnetic Properties, and Photoluminescence. Chemistry - An Asian Journal 13, 2060–2068. (doi:10.1002/asia.201800511)"
+2018_19,[Dy(NO3)3(H2O)3]·2L,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,6.0,,Isostructural,,,,,2018,2018,10.1002/asia.201800511,"Bazhina, E. S., Bovkunova, A. A., Medved’ko, A. V., Varaksina, E. A., Taidakov, I. V., Efimov, N. N., Kiskin, M. A. & Eremenko, I. L. 2018 Lanthanide(III) (Eu, Gd, Tb, Dy) Complexes Derived from 4-(Pyridin-2-yl)methyleneamino-1,2,4-triazole: Crystal Structure, Magnetic Properties, and Photoluminescence. Chemistry - An Asian Journal 13, 2060–2068. (doi:10.1002/asia.201800511)"
+2018_20,Pr(fdh)3(bpy),Diketonate,,Pr3+,Oblate,Non-Kramers,100.0,8.0,4.0,7045185.cif,Proper,Square antiprism,1.278,-5.4,1.136458,2018,2018,10.1039/c7dt04351a,"Xu, M.-X., Meng, Y.-S., Xiong, J., Wang, B.-W., Jiang, S.-D. & Gao, S. 2018 Magnetic anisotropy investigation on light lanthanide complexes. Dalton Transactions 47, 1966–1971. (doi:10.1039/c7dt04351a)"
+2018_20,Nd(fdh)3(bpy),Diketonate,,Nd3+,Oblate,Kramers,100.0,8.0,4.0,7045184.cif,Proper,Square antiprism,1.224,-5.2,1.131352,2018,2018,10.1039/c7dt04351a,"Xu, M.-X., Meng, Y.-S., Xiong, J., Wang, B.-W., Jiang, S.-D. & Gao, S. 2018 Magnetic anisotropy investigation on light lanthanide complexes. Dalton Transactions 47, 1966–1971. (doi:10.1039/c7dt04351a)"
+2018_21,[Dy(LMC)(OTf)2(H2O)2]Otf,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,5.0,7045546.cif,Proper,Triangular dodecahedron,0.846,-0.5,1.0125125,2018,2018,10.1039/c8dt00299a,"Selvanathan, P., Dorcet, V., Roisnel, T., Bernot, K., Huang, G., Le Guennic, B., Norel, L. & Rigaut, S. 2018 trans to cis photo-isomerization in merocyanine dysprosium and yttrium complexes. Dalton Transactions 47, 4139–4148. (doi:10.1039/c8dt00299a)"
+2018_21,[Dy(LMC)(OTf)2(H2O)2]Otf (solution),Other Families,0.0,Dy3+,Oblate,Kramers,,8.0,5.0,,,,,,,2018,2018,10.1039/c8dt00299a,"Selvanathan, P., Dorcet, V., Roisnel, T., Bernot, K., Huang, G., Le Guennic, B., Norel, L. & Rigaut, S. 2018 trans to cis photo-isomerization in merocyanine dysprosium and yttrium complexes. Dalton Transactions 47, 4139–4148. (doi:10.1039/c8dt00299a)"
+2018_21,[Dy(LMC)(OTf)2(H2O)2]Otf (photo),Other Families,0.0,Dy3+,Oblate,Kramers,,8.0,5.0,,,,,,,2018,2018,10.1039/c8dt00299a,"Selvanathan, P., Dorcet, V., Roisnel, T., Bernot, K., Huang, G., Le Guennic, B., Norel, L. & Rigaut, S. 2018 trans to cis photo-isomerization in merocyanine dysprosium and yttrium complexes. Dalton Transactions 47, 4139–4148. (doi:10.1039/c8dt00299a)"
+2018_22,[Tb(Tpm)(NO3)3]·MeCN,Other Families,0.0,Tb3+,Oblate,Non-Kramers,100.0,9.0,4.0,7045761.cif,Proper,Spherical tricapped trigonal prism,1.925,0.8999999999999999,0.9775405,2018,2018,10.1039/c8dt00458g,"Long, J., Lyubov, D. M., Mahrova, T. V., Cherkasov, A. V., Fukin, G. K., Guari, Y., Larionova, J. & Trifonov, A. A. 2018 Synthesis, structure and magnetic properties of tris(pyrazolyl)methane lanthanide complexes: effect of the anion on the slow relaxation of magnetization. Dalton Transactions 47, 5153–5156. (doi:10.1039/c8dt00458g)"
+2018_22,[Dy(Tpm)(NO3)3]·MeCN,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,4.0,7045763.cif,Proper,Spherical tricapped trigonal prism,1.859,1.1,0.9725605,2018,2018,10.1039/c8dt00458g,"Long, J., Lyubov, D. M., Mahrova, T. V., Cherkasov, A. V., Fukin, G. K., Guari, Y., Larionova, J. & Trifonov, A. A. 2018 Synthesis, structure and magnetic properties of tris(pyrazolyl)methane lanthanide complexes: effect of the anion on the slow relaxation of magnetization. Dalton Transactions 47, 5153–5156. (doi:10.1039/c8dt00458g)"
+2018_22,[Er(Tpm)(NO3)3]·MeCN,Other Families,0.0,Er3+,Prolate,Kramers,100.0,9.0,4.0,7045765.cif,Proper,Spherical tricapped trigonal prism,1.773,1.3,0.9675845,2018,2018,10.1039/c8dt00458g,"Long, J., Lyubov, D. M., Mahrova, T. V., Cherkasov, A. V., Fukin, G. K., Guari, Y., Larionova, J. & Trifonov, A. A. 2018 Synthesis, structure and magnetic properties of tris(pyrazolyl)methane lanthanide complexes: effect of the anion on the slow relaxation of magnetization. Dalton Transactions 47, 5153–5156. (doi:10.1039/c8dt00458g)"
+2018_22,[Tb(Tpm)Cl3]·2MeCN,Other Families,0.0,Tb3+,Oblate,Non-Kramers,100.0,9.0,4.0,7045764.cif,Proper,,,,,2018,2018,10.1039/c8dt00458g,"Long, J., Lyubov, D. M., Mahrova, T. V., Cherkasov, A. V., Fukin, G. K., Guari, Y., Larionova, J. & Trifonov, A. A. 2018 Synthesis, structure and magnetic properties of tris(pyrazolyl)methane lanthanide complexes: effect of the anion on the slow relaxation of magnetization. Dalton Transactions 47, 5153–5156. (doi:10.1039/c8dt00458g)"
+2018_22,[Dy(Tpm)Cl3]·2MeCN,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,4.0,7045762.cif,Proper,,,,,2018,2018,10.1039/c8dt00458g,"Long, J., Lyubov, D. M., Mahrova, T. V., Cherkasov, A. V., Fukin, G. K., Guari, Y., Larionova, J. & Trifonov, A. A. 2018 Synthesis, structure and magnetic properties of tris(pyrazolyl)methane lanthanide complexes: effect of the anion on the slow relaxation of magnetization. Dalton Transactions 47, 5153–5156. (doi:10.1039/c8dt00458g)"
+2018_22,[Er(Tpm)Cl3]·2MeCN,Other Families,0.0,Er3+,Prolate,Kramers,100.0,9.0,4.0,7045766.cif,Proper,,,,,2018,2018,10.1039/c8dt00458g,"Long, J., Lyubov, D. M., Mahrova, T. V., Cherkasov, A. V., Fukin, G. K., Guari, Y., Larionova, J. & Trifonov, A. A. 2018 Synthesis, structure and magnetic properties of tris(pyrazolyl)methane lanthanide complexes: effect of the anion on the slow relaxation of magnetization. Dalton Transactions 47, 5153–5156. (doi:10.1039/c8dt00458g)"
+2018_24,DyL2[N(SiMe3)2],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,4.0,3.0,7046289.cif,Proper,,,,,2018,2018,10.1039/c8dt01102h,"Chen, X.-X., Ma, F., Xu, M.-X., Bi, J.-C., Sun, H.-L., Wang, B.-W. & Gao, S. 2018 A neutral auxiliary ligand enhanced dysprosium(iii) single molecule magnet. Dalton Transactions 47, 7395–7398. (doi:10.1039/c8dt01102h)"
+2018_25,{[Nd(pzdo)(H2O)4][CoIII(CN)6]}·0.5(pzdo)·4H2O,Other Families,0.0,Nd3+,Oblate,Kramers,100.0,9.0,9.0,7046303.cif,Proper,Spherical capped square antiprism,0.319,0.8,0.980032,2018,2018,10.1039/c8dt01464g,"Chorazy, S., Charytanowicz, T., Wang, J., Ohkoshi, S. & Sieklucka, B. 2018 Hybrid organic–inorganic connectivity of NdIII(pyrazine-N,N′-dioxide)[CoIII(CN)6]3− coordination chains for creating near-infrared emissive Nd(iii) showing field-induced slow magnetic relaxation. Dalton Transactions 47, 7870–7874. (doi:10.1039/c8dt01464g)"
+2018_26,[Gd(hfac)3]2(BHIMPz)(H2O)2,Radical,,Gd3+,Isotropic,Kramers,100.0,8.0,5.0,,Proper,,,,,2018,2018,10.1039/c8dt01112e,"Xiao, Z.-X., Miao, H., Shao, D., Wei, H.-Y., Zhang, Y.-Q. & Wang, X.-Y. 2018 A family of lanthanide compounds with reduced nitronyl nitroxide diradical: syntheses, structures and magnetic properties. Dalton Transactions 47, 7925–7933. (doi:10.1039/c8dt01112e)"
+2018_26,[Dy(hfac)3]2(BHIMPz)(H2O)2,Radical,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,7046421.cif,Proper,Square antiprism,1.054,-3.5,1.0881125,2018,2018,10.1039/c8dt01112e,"Xiao, Z.-X., Miao, H., Shao, D., Wei, H.-Y., Zhang, Y.-Q. & Wang, X.-Y. 2018 A family of lanthanide compounds with reduced nitronyl nitroxide diradical: syntheses, structures and magnetic properties. Dalton Transactions 47, 7925–7933. (doi:10.1039/c8dt01112e)"
+2018_26,[Ho(hfac)3]2(BHIMPz)(H2O)2,Radical,,Ho3+,Oblate,Non-Kramers,100.0,8.0,5.0,7046422.cif,Proper,Square antiprism,1.067,-3.5,1.0881125,2018,2018,10.1039/c8dt01112e,"Xiao, Z.-X., Miao, H., Shao, D., Wei, H.-Y., Zhang, Y.-Q. & Wang, X.-Y. 2018 A family of lanthanide compounds with reduced nitronyl nitroxide diradical: syntheses, structures and magnetic properties. Dalton Transactions 47, 7925–7933. (doi:10.1039/c8dt01112e)"
+2018_26,[Er(hfac)3]2(BHIMPz)(H2O)2,Radical,,Er3+,Prolate,Kramers,100.0,8.0,5.0,7046418.cif,Proper,Square antiprism,1.036,-3.3,1.0830445,2018,2018,10.1039/c8dt01112e,"Xiao, Z.-X., Miao, H., Shao, D., Wei, H.-Y., Zhang, Y.-Q. & Wang, X.-Y. 2018 A family of lanthanide compounds with reduced nitronyl nitroxide diradical: syntheses, structures and magnetic properties. Dalton Transactions 47, 7925–7933. (doi:10.1039/c8dt01112e)"
+2018_26,[Tm(hfac)3]2(BHIMPz)(H2O)2,Radical,,Tm3+,Prolate,Non-Kramers,100.0,8.0,5.0,7046420.cif,Proper,Square antiprism,1.036,-3.5,1.0881125,2018,2018,10.1039/c8dt01112e,"Xiao, Z.-X., Miao, H., Shao, D., Wei, H.-Y., Zhang, Y.-Q. & Wang, X.-Y. 2018 A family of lanthanide compounds with reduced nitronyl nitroxide diradical: syntheses, structures and magnetic properties. Dalton Transactions 47, 7925–7933. (doi:10.1039/c8dt01112e)"
+2018_26,[Yb(hfac)3]2(BHIMPz)(H2O)2,Radical,,Yb3+,Prolate,Kramers,100.0,8.0,5.0,7046417.cif,Proper,Square antiprism,0.987,-3.3,1.0830445,2018,2018,10.1039/c8dt01112e,"Xiao, Z.-X., Miao, H., Shao, D., Wei, H.-Y., Zhang, Y.-Q. & Wang, X.-Y. 2018 A family of lanthanide compounds with reduced nitronyl nitroxide diradical: syntheses, structures and magnetic properties. Dalton Transactions 47, 7925–7933. (doi:10.1039/c8dt01112e)"
+2018_27,{[Dy(hfac)4][Cu(hfac)(Nit-Ph-PyIm)]+}n,Radical,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7046524.cif,Proper,Square antiprism,0.643,-2.1,1.0527205,2018,2018,10.1039/c8dt01651h,"Sun, J., Yang, M., Xi, L., Ma, Y. & Li, L. 2018 Magnetic relaxation in [Ln(hfac)4]− anions with [Cu(hfac)-radical]nn+ cation chains as counterions. Dalton Transactions 47, 8142–8148. (doi:10.1039/c8dt01651h)"
+2018_29,[DyZn2(Hhms)2(C6H5COO)4]·C6H5COO,TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,6.0,7046712.cif,Proper,Square antiprism,0.66,-4.100000000000001,1.1033405,2018,2018,10.1039/c8dt01842a,"Li, M., Wu, H., Wei, Q., Ke, H., Yin, B., Zhang, S., Lv, X., Xie, G. & Chen, S. 2018 Two {ZnII2DyIII} complexes supported by monophenoxido/dicarboxylate bridges with multiple relaxation processes: carboxylato ancillary ligand-controlled magnetic anisotropy in square antiprismatic DyIII species. Dalton Transactions 47, 9482–9491. (doi:10.1039/c8dt01842a)"
+2018_29,[DyZn2(Hhms)2(C6H5COO)4]·C6H5COO,TM near Ln,,Dy3+,Oblate,Kramers,5.0,8.0,6.0,,Isostructural,,,,,2018,2018,10.1039/c8dt01842a,"Li, M., Wu, H., Wei, Q., Ke, H., Yin, B., Zhang, S., Lv, X., Xie, G. & Chen, S. 2018 Two {ZnII2DyIII} complexes supported by monophenoxido/dicarboxylate bridges with multiple relaxation processes: carboxylato ancillary ligand-controlled magnetic anisotropy in square antiprismatic DyIII species. Dalton Transactions 47, 9482–9491. (doi:10.1039/c8dt01842a)"
+2018_29,[DyZn2(Hhms)2(CH3COO)4]·CH3COO,TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,6.0,7046713.cif,Proper,Biaugmented trigonal prism,17.566,2.0,0.9502,2018,2018,10.1039/c8dt01842a,"Li, M., Wu, H., Wei, Q., Ke, H., Yin, B., Zhang, S., Lv, X., Xie, G. & Chen, S. 2018 Two {ZnII2DyIII} complexes supported by monophenoxido/dicarboxylate bridges with multiple relaxation processes: carboxylato ancillary ligand-controlled magnetic anisotropy in square antiprismatic DyIII species. Dalton Transactions 47, 9482–9491. (doi:10.1039/c8dt01842a)"
+2018_29,[DyZn2(Hhms)2(CH3COO)4]·CH3COO,TM near Ln,,Dy3+,Oblate,Kramers,5.0,8.0,6.0,,Isostructural,,,,,2018,2018,10.1039/c8dt01842a,"Li, M., Wu, H., Wei, Q., Ke, H., Yin, B., Zhang, S., Lv, X., Xie, G. & Chen, S. 2018 Two {ZnII2DyIII} complexes supported by monophenoxido/dicarboxylate bridges with multiple relaxation processes: carboxylato ancillary ligand-controlled magnetic anisotropy in square antiprismatic DyIII species. Dalton Transactions 47, 9482–9491. (doi:10.1039/c8dt01842a)"
+2018_29,[Dy(NO3)3(5BrsalanH)2(H2O)]·MeCN,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,6.0,1833556.cif,Proper,Spherical capped square antiprism,2.529,-3.4,1.085578,2018,2018,10.1039/c8dt01264d,"Maniaki, D., Mylonas-Margaritis, I., Mayans, J., Savvidou, A., Raptopoulou, C. P., Bekiari, V., Psycharis, V., Escuer, A. & Perlepes, S. P. 2018 Slow magnetic relaxation and luminescence properties in lanthanide(iii)/anil complexes. Dalton Transactions 47, 11859–11872. (doi:10.1039/c8dt01264d)"
+2018_30,"[Dy(dbpy)(tcpb)3]·0.5(1,4-dioxane)",Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7047236.cif,Proper,Triangular dodecahedron,0.872,5.2,0.871352,2018,2018,10.1039/c8dt02361a,"Zhang, S., Mo, W., Yin, B., Zhang, G., Yang, D., Lü, X. & Chen, S. 2018 The slow magnetic relaxation regulated by the coordination, configuration and intermolecular dipolar field in two mononuclear DyIII single-molecule magnets (SMMs). Dalton Transactions 47, 12393–12405. (doi:10.1039/c8dt02361a)"
+2018_31,[Dy(bath)(tcpb)3],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7047237.cif,Proper,Square antiprism,0.939,-2.5,1.0628125,2018,2018,10.1039/c8dt02361a,"Zhang, S., Mo, W., Yin, B., Zhang, G., Yang, D., Lü, X. & Chen, S. 2018 The slow magnetic relaxation regulated by the coordination, configuration and intermolecular dipolar field in two mononuclear DyIII single-molecule magnets (SMMs). Dalton Transactions 47, 12393–12405. (doi:10.1039/c8dt02361a)"
+2018_32,[Dy(L1)3(H2O)],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,7.0,4.0,7047811.cif,Proper,Capped trigonal prism,2.943,5.2,0.871352,2018,2018,10.1039/c8dt03133a,"Wang, H.-L., Ma, X.-F., Zou, H.-H., Wang, K., Li, B., Chen, Z.-L. & Liang, F.-P. 2018 Mixed chelating ligands used to regulate the luminescence of Ln(iii) complexes and single-ion magnet behavior in Dy-based analogues. Dalton Transactions 47, 15929–15940. (doi:10.1039/c8dt03133a)"
+2018_32,[Dy(L2)2(NO3)3],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,6.0,5.0,7047810.cif,Proper,Octahedron,9.662,-0.8,1.020032,2018,2018,10.1039/c8dt03133a,"Wang, H.-L., Ma, X.-F., Zou, H.-H., Wang, K., Li, B., Chen, Z.-L. & Liang, F.-P. 2018 Mixed chelating ligands used to regulate the luminescence of Ln(iii) complexes and single-ion magnet behavior in Dy-based analogues. Dalton Transactions 47, 15929–15940. (doi:10.1039/c8dt03133a)"
+2018_32,[Dy(L3)3(H2O)],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,7.0,4.0,7047809.cif,Proper,Capped trigonal prism,3.618,4.5,0.8885125,2018,2018,10.1039/c8dt03133a,"Wang, H.-L., Ma, X.-F., Zou, H.-H., Wang, K., Li, B., Chen, Z.-L. & Liang, F.-P. 2018 Mixed chelating ligands used to regulate the luminescence of Ln(iii) complexes and single-ion magnet behavior in Dy-based analogues. Dalton Transactions 47, 15929–15940. (doi:10.1039/c8dt03133a)"
+2018_32,[Dy(L1)2(L2)(NO3)],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7047819.cif,Proper,Biaugmented trigonal prism,2.442,-6.4,1.162048,2018,2018,10.1039/c8dt03133a,"Wang, H.-L., Ma, X.-F., Zou, H.-H., Wang, K., Li, B., Chen, Z.-L. & Liang, F.-P. 2018 Mixed chelating ligands used to regulate the luminescence of Ln(iii) complexes and single-ion magnet behavior in Dy-based analogues. Dalton Transactions 47, 15929–15940. (doi:10.1039/c8dt03133a)"
+2018_32,[Dy(L3)2(L2)(NO3)],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7047818.cif,Proper,Biaugmented trigonal prism,2.32,-6.2,1.156922,2018,2018,10.1039/c8dt03133a,"Wang, H.-L., Ma, X.-F., Zou, H.-H., Wang, K., Li, B., Chen, Z.-L. & Liang, F.-P. 2018 Mixed chelating ligands used to regulate the luminescence of Ln(iii) complexes and single-ion magnet behavior in Dy-based analogues. Dalton Transactions 47, 15929–15940. (doi:10.1039/c8dt03133a)"
+2018_33,[Tb(NAS)2(H2O)6](NAS)·3H2O,Other Families,0.0,Tb3+,Oblate,Non-Kramers,100.0,8.0,8.0,7048135.cif,Proper,Square antiprism,0.619,-2.5,1.0628125,2018,2018,10.1039/c8dt03613f,"Peng, G., Zhang, Y.-Y., Li, B., Sun, X.-F., Cai, H.-L., Li, D.-J., Gu, Z.-G. & Kostakis, G. E. 2018 Single molecule magnetic behaviour in lanthanide naphthalenesulfonate complexes. Dalton Transactions 47, 17349–17356. (doi:10.1039/c8dt03613f)"
+2018_33,[Dy(NAS)2(H2O)6](NAS)·3H2O,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,8.0,,Isostructural,,,,,2018,2018,10.1039/c8dt03613f,"Peng, G., Zhang, Y.-Y., Li, B., Sun, X.-F., Cai, H.-L., Li, D.-J., Gu, Z.-G. & Kostakis, G. E. 2018 Single molecule magnetic behaviour in lanthanide naphthalenesulfonate complexes. Dalton Transactions 47, 17349–17356. (doi:10.1039/c8dt03613f)"
+2018_33,[Er(NAS)2(H2O)6](NAS)·3H2O,Other Families,0.0,Er3+,Prolate,Kramers,100.0,8.0,8.0,,Isostructural,,,,,2018,2018,10.1039/c8dt03613f,"Peng, G., Zhang, Y.-Y., Li, B., Sun, X.-F., Cai, H.-L., Li, D.-J., Gu, Z.-G. & Kostakis, G. E. 2018 Single molecule magnetic behaviour in lanthanide naphthalenesulfonate complexes. Dalton Transactions 47, 17349–17356. (doi:10.1039/c8dt03613f)"
+2018_33,[Yb(NAS)2(H2O)6](NAS)·3H2O,Other Families,0.0,Yb3+,Prolate,Kramers,100.0,8.0,8.0,,Isostructural,,,,,2018,2018,10.1039/c8dt03613f,"Peng, G., Zhang, Y.-Y., Li, B., Sun, X.-F., Cai, H.-L., Li, D.-J., Gu, Z.-G. & Kostakis, G. E. 2018 Single molecule magnetic behaviour in lanthanide naphthalenesulfonate complexes. Dalton Transactions 47, 17349–17356. (doi:10.1039/c8dt03613f)"
+2018_33,[Dy0.06Y0.94(NAS)2(H2O)6](NAS)·3H2O,Other Families,0.0,Dy3+,Oblate,Kramers,6.0,8.0,8.0,,Isostructural,,,,,2018,2018,10.1039/c8dt03613f,"Peng, G., Zhang, Y.-Y., Li, B., Sun, X.-F., Cai, H.-L., Li, D.-J., Gu, Z.-G. & Kostakis, G. E. 2018 Single molecule magnetic behaviour in lanthanide naphthalenesulfonate complexes. Dalton Transactions 47, 17349–17356. (doi:10.1039/c8dt03613f)"
+2018_34,[Dy(LNN)(H2O)6]Cl2·2H2O,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,7.0,1574560.cif,Proper,Square antiprism,0.458,-3.2,1.080512,2018,2018,10.1002/ejic.201701106,"Guettas, D., Montigaud, V., Garcia, G. F., Larini, P., Cador, O., Le Guennic, B. & Pilet, G. 2017 Fine Control of the Metal Environment within Dysprosium-Based Mononuclear Single-Molecule Magnets. European Journal of Inorganic Chemistry 2018, 333–339. (doi:10.1002/ejic.201701106)"
+2018_34,[Dy(LNN)2(MeOH)2(H2O)6]Cl,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,6.0,1574559.cif,Proper,Triangular dodecahedron,0.427,2.2,0.945242,2018,2018,10.1002/ejic.201701106,"Guettas, D., Montigaud, V., Garcia, G. F., Larini, P., Cador, O., Le Guennic, B. & Pilet, G. 2017 Fine Control of the Metal Environment within Dysprosium-Based Mononuclear Single-Molecule Magnets. European Journal of Inorganic Chemistry 2018, 333–339. (doi:10.1002/ejic.201701106)"
+2018_34,[Dy(LNN)3(MeOH)2],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,1574562.cif,Proper,Square antiprism,0.498,-2.4,1.060288,2018,2018,10.1002/ejic.201701106,"Guettas, D., Montigaud, V., Garcia, G. F., Larini, P., Cador, O., Le Guennic, B. & Pilet, G. 2017 Fine Control of the Metal Environment within Dysprosium-Based Mononuclear Single-Molecule Magnets. European Journal of Inorganic Chemistry 2018, 333–339. (doi:10.1002/ejic.201701106)"
+2018_34,[Dy(LNN)3(MeOH)]n·nH2O,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1574561.cif,Proper,Triangular dodecahedron,0.427,1.2,0.970072,2018,2018,10.1002/ejic.201701106,"Guettas, D., Montigaud, V., Garcia, G. F., Larini, P., Cador, O., Le Guennic, B. & Pilet, G. 2017 Fine Control of the Metal Environment within Dysprosium-Based Mononuclear Single-Molecule Magnets. European Journal of Inorganic Chemistry 2018, 333–339. (doi:10.1002/ejic.201701106)"
+2018_34,[Dy2(hfac)6(L1)2]·C6H14·0.25CH2Cl2,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1558616.cif,Proper,Square antiprism,0.733,-3.8,1.095722,2018,2018,10.1002/ejic.201700893,"Kishi, Y. et al. 2017 Luminescence and Single-Molecule-Magnet Behaviour in Lanthanide Coordination Complexes Involving Benzothiazole-Based Tetrathiafulvalene Ligands. European Journal of Inorganic Chemistry 2018, 458–468. (doi:10.1002/ejic.201700893)"
+2018_35,[Yb2(hfac)6(L1)2]·C6H14·0.30CH2Cl2,Diketonate,,Yb3+,Prolate,Kramers,100.0,8.0,4.0,1558617.cif,Proper,Square antiprism,0.692,-3.7,1.0931845,2018,2018,10.1002/ejic.201700893,"Kishi, Y. et al. 2017 Luminescence and Single-Molecule-Magnet Behaviour in Lanthanide Coordination Complexes Involving Benzothiazole-Based Tetrathiafulvalene Ligands. European Journal of Inorganic Chemistry 2018, 458–468. (doi:10.1002/ejic.201700893)"
+2018_35,[Dy(hfac)3(L2)],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1558618.cif,Proper,Square antiprism,0.303,-2.3,1.0577645,2018,2018,10.1002/ejic.201700893,"Kishi, Y. et al. 2017 Luminescence and Single-Molecule-Magnet Behaviour in Lanthanide Coordination Complexes Involving Benzothiazole-Based Tetrathiafulvalene Ligands. European Journal of Inorganic Chemistry 2018, 458–468. (doi:10.1002/ejic.201700893)"
+2018_35,[Yb(hfac)3(L2)],Diketonate,,Yb3+,Prolate,Kramers,100.0,8.0,4.0,1558619.cif,Proper,Square antiprism,0.296,-2.1,1.0527205,2018,2018,10.1002/ejic.201700893,"Kishi, Y. et al. 2017 Luminescence and Single-Molecule-Magnet Behaviour in Lanthanide Coordination Complexes Involving Benzothiazole-Based Tetrathiafulvalene Ligands. European Journal of Inorganic Chemistry 2018, 458–468. (doi:10.1002/ejic.201700893)"
+2018_35,[Yb(tta)3(L1)],Diketonate,,Yb3+,Prolate,Kramers,100.0,8.0,4.0,1510235.cif,Proper,Square antiprism,0.636,-3.6,1.090648,2018,2018,10.1002/ejic.201700893,"Kishi, Y. et al. 2017 Luminescence and Single-Molecule-Magnet Behaviour in Lanthanide Coordination Complexes Involving Benzothiazole-Based Tetrathiafulvalene Ligands. European Journal of Inorganic Chemistry 2018, 458–468. (doi:10.1002/ejic.201700893)"
+2018_35,[Er(tta)3(L1)],Diketonate,,Er3+,Prolate,Kramers,100.0,8.0,4.0,1510238.cif,Proper,Square antiprism,0.692,-3.8,1.095722,2018,2018,10.1002/ejic.201700893,"Kishi, Y. et al. 2017 Luminescence and Single-Molecule-Magnet Behaviour in Lanthanide Coordination Complexes Involving Benzothiazole-Based Tetrathiafulvalene Ligands. European Journal of Inorganic Chemistry 2018, 458–468. (doi:10.1002/ejic.201700893)"
+2018_37,[L1ZnClDy(acac)2]-H2O,TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,1544545.cif,Proper,Others,3.24,,,2018,2018,10.1021/acs.inorgchem.8b00056,"Yang, J.-W., Tian, Y.-M., Tao, J., Chen, P., Li, H.-F., Zhang, Y.-Q., Yan, P.-F. & Sun, W.-B. 2018 Modulation of the Coordination Environment around the Magnetic Easy Axis Leads to Significant Magnetic Relaxations in a Series of 3d-4f Schiff Complexes. Inorganic Chemistry 57, 8065–8077. (doi:10.1021/acs.inorgchem.8b00056)"
+2018_37,[L1ZnBrDy(acac)2]·H2O,TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,1544546.cif,Proper,Others,3.086,,,2018,2018,10.1021/acs.inorgchem.8b00056,"Yang, J.-W., Tian, Y.-M., Tao, J., Chen, P., Li, H.-F., Zhang, Y.-Q., Yan, P.-F. & Sun, W.-B. 2018 Modulation of the Coordination Environment around the Magnetic Easy Axis Leads to Significant Magnetic Relaxations in a Series of 3d-4f Schiff Complexes. Inorganic Chemistry 57, 8065–8077. (doi:10.1021/acs.inorgchem.8b00056)"
+2018_37,[L1Zn(H2O)Dy(acac)2]-CH2Cl2·PF6,TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,1544547.cif,Proper,Others,2.413,,,2018,2018,10.1021/acs.inorgchem.8b00056,"Yang, J.-W., Tian, Y.-M., Tao, J., Chen, P., Li, H.-F., Zhang, Y.-Q., Yan, P.-F. & Sun, W.-B. 2018 Modulation of the Coordination Environment around the Magnetic Easy Axis Leads to Significant Magnetic Relaxations in a Series of 3d-4f Schiff Complexes. Inorganic Chemistry 57, 8065–8077. (doi:10.1021/acs.inorgchem.8b00056)"
+2018_37,[L2Zn(II)(H2O)Dy(acac)2]·PF6,TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,1544548.cif,Proper,Square antiprism,3.154,-4.2,1.105882,2018,2018,10.1021/acs.inorgchem.8b00056,"Yang, J.-W., Tian, Y.-M., Tao, J., Chen, P., Li, H.-F., Zhang, Y.-Q., Yan, P.-F. & Sun, W.-B. 2018 Modulation of the Coordination Environment around the Magnetic Easy Axis Leads to Significant Magnetic Relaxations in a Series of 3d-4f Schiff Complexes. Inorganic Chemistry 57, 8065–8077. (doi:10.1021/acs.inorgchem.8b00056)"
+2018_37,[L1Co(III)Br2Dy(acac)2]·CH2Cl2,TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,1544549.cif,Proper,Others,2.798,,,2018,2018,10.1021/acs.inorgchem.8b00056,"Yang, J.-W., Tian, Y.-M., Tao, J., Chen, P., Li, H.-F., Zhang, Y.-Q., Yan, P.-F. & Sun, W.-B. 2018 Modulation of the Coordination Environment around the Magnetic Easy Axis Leads to Significant Magnetic Relaxations in a Series of 3d-4f Schiff Complexes. Inorganic Chemistry 57, 8065–8077. (doi:10.1021/acs.inorgchem.8b00056)"
+2018_37,[L2Co(III)Cl2Dy(acac)Cl(MeO)],TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1544550.cif,Proper,Biaugmented trigonal prism,3.087,0.1,0.9975005,2018,2018,10.1021/acs.inorgchem.8b00056,"Yang, J.-W., Tian, Y.-M., Tao, J., Chen, P., Li, H.-F., Zhang, Y.-Q., Yan, P.-F. & Sun, W.-B. 2018 Modulation of the Coordination Environment around the Magnetic Easy Axis Leads to Significant Magnetic Relaxations in a Series of 3d-4f Schiff Complexes. Inorganic Chemistry 57, 8065–8077. (doi:10.1021/acs.inorgchem.8b00056)"
+2018_37,[L2Co(III)Cl2Dy(acac)Cl(H2O)],TM near Ln,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1544551.cif,Proper,Biaugmented trigonal prism,2.555,-0.8999999999999999,1.0225405,2018,2018,10.1021/acs.inorgchem.8b00056,"Yang, J.-W., Tian, Y.-M., Tao, J., Chen, P., Li, H.-F., Zhang, Y.-Q., Yan, P.-F. & Sun, W.-B. 2018 Modulation of the Coordination Environment around the Magnetic Easy Axis Leads to Significant Magnetic Relaxations in a Series of 3d-4f Schiff Complexes. Inorganic Chemistry 57, 8065–8077. (doi:10.1021/acs.inorgchem.8b00056)"
+2018_37,[L2Co(III)Cl2Dy(NO3)2(MeO)],TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,4.0,1544552.cif,Proper,Spherical capped square antiprism,2.373,2.7,0.9328645,2018,2018,10.1021/acs.inorgchem.8b00056,"Yang, J.-W., Tian, Y.-M., Tao, J., Chen, P., Li, H.-F., Zhang, Y.-Q., Yan, P.-F. & Sun, W.-B. 2018 Modulation of the Coordination Environment around the Magnetic Easy Axis Leads to Significant Magnetic Relaxations in a Series of 3d-4f Schiff Complexes. Inorganic Chemistry 57, 8065–8077. (doi:10.1021/acs.inorgchem.8b00056)"
+2018_37,[L1Zn(H2O)Dy/Y(acac)2]-CH2Cl2·PF6,TM near Ln,,Dy3+,Oblate,Kramers,5.0,8.0,3.0,,Isostructural,,,,,2018,2018,10.1021/acs.inorgchem.8b00056,"Yang, J.-W., Tian, Y.-M., Tao, J., Chen, P., Li, H.-F., Zhang, Y.-Q., Yan, P.-F. & Sun, W.-B. 2018 Modulation of the Coordination Environment around the Magnetic Easy Axis Leads to Significant Magnetic Relaxations in a Series of 3d-4f Schiff Complexes. Inorganic Chemistry 57, 8065–8077. (doi:10.1021/acs.inorgchem.8b00056)"
+2018_37,[L2Co(III)Cl2Dy(acac)Cl(MeO)],TM near Ln,,Dy3+,Oblate,Kramers,5.0,8.0,4.0,,Isostructural,,,,,2018,2018,10.1021/acs.inorgchem.8b00056,"Yang, J.-W., Tian, Y.-M., Tao, J., Chen, P., Li, H.-F., Zhang, Y.-Q., Yan, P.-F. & Sun, W.-B. 2018 Modulation of the Coordination Environment around the Magnetic Easy Axis Leads to Significant Magnetic Relaxations in a Series of 3d-4f Schiff Complexes. Inorganic Chemistry 57, 8065–8077. (doi:10.1021/acs.inorgchem.8b00056)"
+2018_37,[L2Co(III)Cl2Dy(acac)Cl(H2O)],TM near Ln,,Dy3+,Oblate,Kramers,5.0,8.0,4.0,,Isostructural,,,,,2018,2018,10.1021/acs.inorgchem.8b00056,"Yang, J.-W., Tian, Y.-M., Tao, J., Chen, P., Li, H.-F., Zhang, Y.-Q., Yan, P.-F. & Sun, W.-B. 2018 Modulation of the Coordination Environment around the Magnetic Easy Axis Leads to Significant Magnetic Relaxations in a Series of 3d-4f Schiff Complexes. Inorganic Chemistry 57, 8065–8077. (doi:10.1021/acs.inorgchem.8b00056)"
+2018_38,[Tb2(H2daps)2(CH3OH)5.5(H2O)0.5](Cl)2,Other Families,,Tb3+,Oblate,Non-Kramers,100.0,9.0,4.0,,,,,,,2018,2018,10.1021/acs.inorgchem.8b01251,"Fondo, M., Corredoira-Vázquez, J., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M. & Colacio, E. 2018 Tb2, Dy2, and Zn2Dy4 Complexes Showing the Unusual Versatility of a Hydrazone Ligand toward Lanthanoid Ions: a Structural and Magnetic Study. Inorganic Chemistry 57, 10100–10110. (doi:10.1021/acs.inorgchem.8b01251)"
+2018_38,[Dy2(H2daps)2(Cl)(CH3OH)3(H2O)]Cl,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,,,,,,2018,2018,10.1021/acs.inorgchem.8b01251,"Fondo, M., Corredoira-Vázquez, J., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M. & Colacio, E. 2018 Tb2, Dy2, and Zn2Dy4 Complexes Showing the Unusual Versatility of a Hydrazone Ligand toward Lanthanoid Ions: a Structural and Magnetic Study. Inorganic Chemistry 57, 10100–10110. (doi:10.1021/acs.inorgchem.8b01251)"
+2018_38,[Dy2(H2daps)2(H2O)6](CF3SO3)2·2THF,Other Families,,Dy3+,Oblate,Kramers,100.0,9.0,4.0,,,,,,,2018,2018,10.1021/acs.inorgchem.8b01251,"Fondo, M., Corredoira-Vázquez, J., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M. & Colacio, E. 2018 Tb2, Dy2, and Zn2Dy4 Complexes Showing the Unusual Versatility of a Hydrazone Ligand toward Lanthanoid Ions: a Structural and Magnetic Study. Inorganic Chemistry 57, 10100–10110. (doi:10.1021/acs.inorgchem.8b01251)"
+2018_38,[Y1.904Dy0.096(H2daps)2(Cl)(H2O)4]Cl,Other Families,,Dy3+,Oblate,Kramers,4.8,8.0,4.0,,,,,,,2018,2018,10.1021/acs.inorgchem.8b01251,"Fondo, M., Corredoira-Vázquez, J., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M. & Colacio, E. 2018 Tb2, Dy2, and Zn2Dy4 Complexes Showing the Unusual Versatility of a Hydrazone Ligand toward Lanthanoid Ions: a Structural and Magnetic Study. Inorganic Chemistry 57, 10100–10110. (doi:10.1021/acs.inorgchem.8b01251)"
+2018_38,[Nd(CyPh2PO)2(H2O)5]I3·2(CyPh2PO)·3EtOH,P=O,,Nd3+,Oblate,Kramers,100.0,7.0,7.0,,,,,,,2018,2018,10.1021/acs.inorgchem.8b01957,"Chen, Y.-C., Huang, X.-S., Liu, J.-L. & Tong, M.-L. 2018 Magnetic Dynamics of a Neodymium(III) Single-Ion Magnet. Inorganic Chemistry 57, 11782–11787. (doi:10.1021/acs.inorgchem.8b01957)"
+2018_39,[Dy(L)3(HL)(THF)2],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,6.0,1850697.cif,Proper,Triangular dodecahedron,2.769,5.1,0.8738005,2018,2018,10.1021/acs.inorgchem.8b01878,"Guo, M., Zhang, Y.-Q., Zhu, Z. & Tang, J. 2018 Dysprosium Compounds with Hula-Hoop-like Geometries: The Influence of Magnetic Anisotropy and Magnetic Interactions on Magnetic Relaxation. Inorganic Chemistry 57, 12213–12221. (doi:10.1021/acs.inorgchem.8b01878)"
+2018_40,Dy[H(Hp)2],LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,1558646.cif,Proper,Square antiprism,1.005,-4.9,1.1237005,2018,2018,10.1021/acs.inorgchem.8b02068,"Liu, W., Zeng, S., Chen, X., Pan, H., Qi, D., Wang, K., Dou, J. & Jiang, J. 2018 Hemiporphyrazine-Involved Sandwich Dysprosium Double-Decker Single-Ion Magnets. Inorganic Chemistry 57, 12347–12353. (doi:10.1021/acs.inorgchem.8b02068)"
+2018_41,Dy[H(Pc)(Hp)],LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,1557721.cif,Proper,Square antiprism,0.703,-5.7,1.1441245,2018,2018,10.1021/acs.inorgchem.8b02068,"Liu, W., Zeng, S., Chen, X., Pan, H., Qi, D., Wang, K., Dou, J. & Jiang, J. 2018 Hemiporphyrazine-Involved Sandwich Dysprosium Double-Decker Single-Ion Magnets. Inorganic Chemistry 57, 12347–12353. (doi:10.1021/acs.inorgchem.8b02068)"
+2018_41,[{((S)-PEBA }Sm(COT)(THF),Other Families,100.0,Sm3+,Prolate,Kramers,100.0,4.0,3.0,,,,,,,2018,2018,10.1021/acs.organomet.8b00412,"He, M. et al. 2018 Enantiopure Benzamidinate/Cyclooctatetraene Complexes of the Rare-Earth Elements: Synthesis, Structure, and Magnetism. Organometallics 37, 3708–3717. (doi:10.1021/acs.organomet.8b00412)"
+2018_42,[{((S)-PEBA }Dy(COT)(THF),Other Families,100.0,Dy3+,Oblate,Kramers,100.0,4.0,3.0,,,,,,,2018,2018,10.1021/acs.organomet.8b00412,"He, M. et al. 2018 Enantiopure Benzamidinate/Cyclooctatetraene Complexes of the Rare-Earth Elements: Synthesis, Structure, and Magnetism. Organometallics 37, 3708–3717. (doi:10.1021/acs.organomet.8b00412)"
+2018_42,[{((S)-PEBA }Er(COT)(THF),Other Families,100.0,Er3+,Prolate,Kramers,100.0,4.0,3.0,,,,,,,2018,2018,10.1021/acs.organomet.8b00412,"He, M. et al. 2018 Enantiopure Benzamidinate/Cyclooctatetraene Complexes of the Rare-Earth Elements: Synthesis, Structure, and Magnetism. Organometallics 37, 3708–3717. (doi:10.1021/acs.organomet.8b00412)"
+2018_42,[{((S)-PEBA }Yb(COT)(THF),Other Families,100.0,Yb3+,Prolate,Kramers,100.0,4.0,3.0,,,,,,,2018,2018,10.1021/acs.organomet.8b00412,"He, M. et al. 2018 Enantiopure Benzamidinate/Cyclooctatetraene Complexes of the Rare-Earth Elements: Synthesis, Structure, and Magnetism. Organometallics 37, 3708–3717. (doi:10.1021/acs.organomet.8b00412)"
+2018_42,[{(S)-PETA}Dy(COT)(THF)],Other Families,100.0,Dy3+,Oblate,Kramers,100.0,4.0,3.0,,,,,,,2018,2018,10.1021/acs.organomet.8b00412,"He, M. et al. 2018 Enantiopure Benzamidinate/Cyclooctatetraene Complexes of the Rare-Earth Elements: Synthesis, Structure, and Magnetism. Organometallics 37, 3708–3717. (doi:10.1021/acs.organomet.8b00412)"
+2018_42,[{(S)-PETA}Er(COT)(THF)],Other Families,100.0,Er3+,Prolate,Kramers,100.0,4.0,3.0,,,,,,,2018,2018,10.1021/acs.organomet.8b00412,"He, M. et al. 2018 Enantiopure Benzamidinate/Cyclooctatetraene Complexes of the Rare-Earth Elements: Synthesis, Structure, and Magnetism. Organometallics 37, 3708–3717. (doi:10.1021/acs.organomet.8b00412)"
+2018_42,[{(S)-PETA}Yb(COT)(THF)],Other Families,100.0,Yb3+,Prolate,Kramers,100.0,4.0,3.0,,,,,,,2018,2018,10.1021/acs.organomet.8b00412,"He, M. et al. 2018 Enantiopure Benzamidinate/Cyclooctatetraene Complexes of the Rare-Earth Elements: Synthesis, Structure, and Magnetism. Organometallics 37, 3708–3717. (doi:10.1021/acs.organomet.8b00412)"
+2018_42,[Tb(H2O)3(18-crown-6)](ClO4)3,Crown Ether,,Tb3+,Oblate,Non-Kramers,100.0,9.0,4.0,,,,,,,2018,2018,10.1021/acs.inorgchem.8b01688,"Maxwell, L., Amoza, M. & Ruiz, E. 2018 Mononuclear Lanthanide Complexes with 18-Crown-6 Ether: Synthesis, Characterization, Magnetic Properties, and Theoretical Studies. Inorganic Chemistry 57, 13225–13234. (doi:10.1021/acs.inorgchem.8b01688)"
+2018_43,[Dy(H2O)3(18-crown-6)](ClO4)3,Crown Ether,,Dy3+,Oblate,Kramers,100.0,9.0,4.0,,,,,,,2018,2018,10.1021/acs.inorgchem.8b01688,"Maxwell, L., Amoza, M. & Ruiz, E. 2018 Mononuclear Lanthanide Complexes with 18-Crown-6 Ether: Synthesis, Characterization, Magnetic Properties, and Theoretical Studies. Inorganic Chemistry 57, 13225–13234. (doi:10.1021/acs.inorgchem.8b01688)"
+2018_43,[Er(H2O)3(18-crown-6)](ClO4)3,Crown Ether,,Er3+,Prolate,Kramers,100.0,9.0,4.0,,,,,,,2018,2018,10.1021/acs.inorgchem.8b01688,"Maxwell, L., Amoza, M. & Ruiz, E. 2018 Mononuclear Lanthanide Complexes with 18-Crown-6 Ether: Synthesis, Characterization, Magnetic Properties, and Theoretical Studies. Inorganic Chemistry 57, 13225–13234. (doi:10.1021/acs.inorgchem.8b01688)"
+2018_43,[Yb(H2O)3(18-crown-6)](ClO4)3,Crown Ether,,Yb3+,Prolate,Kramers,100.0,9.0,4.0,,,,,,,2018,2018,10.1021/acs.inorgchem.8b01688,"Maxwell, L., Amoza, M. & Ruiz, E. 2018 Mononuclear Lanthanide Complexes with 18-Crown-6 Ether: Synthesis, Characterization, Magnetic Properties, and Theoretical Studies. Inorganic Chemistry 57, 13225–13234. (doi:10.1021/acs.inorgchem.8b01688)"
+2018_43,"Na[Dy(5,7-Br2q)4]·DMF",Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1562344.cif,Proper,Biaugmented trigonal prism,2.599,-5.7,1.1441245,2018,2018,10.1021/acs.inorgchem.8b02080,"Cañon-Mancisidor, W., Miralles, S. G., Baldoví, J. J., Espallargas, G. M., Gaita-Ariño, A. & Coronado, E. 2018 Sublimable Single Ion Magnets Based on Lanthanoid Quinolinate Complexes: The Role of Intermolecular Interactions on Their Thermal Stability. Inorganic Chemistry 57, 14170–14177. (doi:10.1021/acs.inorgchem.8b02080)"
+2018_44,"Na[Tb(5,7-Br2q)4]·DMF",Other Families,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,1562345.cif,Proper,Biaugmented trigonal prism,2.616,-5.600000000000001,1.141568,2018,2018,10.1021/acs.inorgchem.8b02080,"Cañon-Mancisidor, W., Miralles, S. G., Baldoví, J. J., Espallargas, G. M., Gaita-Ariño, A. & Coronado, E. 2018 Sublimable Single Ion Magnets Based on Lanthanoid Quinolinate Complexes: The Role of Intermolecular Interactions on Their Thermal Stability. Inorganic Chemistry 57, 14170–14177. (doi:10.1021/acs.inorgchem.8b02080)"
+2018_44,"Na[Er(5,7-Br2q)4]·DMF",Other Families,,Er3+,Prolate,Kramers,100.0,8.0,4.0,1562346.cif,Proper,Biaugmented trigonal prism,2.369,-5.4,1.136458,2018,2018,10.1021/acs.inorgchem.8b02080,"Cañon-Mancisidor, W., Miralles, S. G., Baldoví, J. J., Espallargas, G. M., Gaita-Ariño, A. & Coronado, E. 2018 Sublimable Single Ion Magnets Based on Lanthanoid Quinolinate Complexes: The Role of Intermolecular Interactions on Their Thermal Stability. Inorganic Chemistry 57, 14170–14177. (doi:10.1021/acs.inorgchem.8b02080)"
+2018_44,"Na[Ho(5,7-Br2q)4]·DMF",Other Families,,Ho3+,Oblate,Non-Kramers,100.0,8.0,4.0,1562347.cif,Proper,Biaugmented trigonal prism,2.536,-5.7,1.1441245,2018,2018,10.1021/acs.inorgchem.8b02080,"Cañon-Mancisidor, W., Miralles, S. G., Baldoví, J. J., Espallargas, G. M., Gaita-Ariño, A. & Coronado, E. 2018 Sublimable Single Ion Magnets Based on Lanthanoid Quinolinate Complexes: The Role of Intermolecular Interactions on Their Thermal Stability. Inorganic Chemistry 57, 14170–14177. (doi:10.1021/acs.inorgchem.8b02080)"
+2018_44,"Na[Dy(5,7-ClIq)4]·DMF",Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1562348.cif,Proper,Biaugmented trigonal prism,1.752,-6.7,1.1697445,2018,2018,10.1021/acs.inorgchem.8b02080,"Cañon-Mancisidor, W., Miralles, S. G., Baldoví, J. J., Espallargas, G. M., Gaita-Ariño, A. & Coronado, E. 2018 Sublimable Single Ion Magnets Based on Lanthanoid Quinolinate Complexes: The Role of Intermolecular Interactions on Their Thermal Stability. Inorganic Chemistry 57, 14170–14177. (doi:10.1021/acs.inorgchem.8b02080)"
+2018_44,"Na[Tb(5,7-ClIq)4]·DMF",Other Families,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,1562349.cif,Proper,Biaugmented trigonal prism,1.825,-6.9,1.1748805,2018,2018,10.1021/acs.inorgchem.8b02080,"Cañon-Mancisidor, W., Miralles, S. G., Baldoví, J. J., Espallargas, G. M., Gaita-Ariño, A. & Coronado, E. 2018 Sublimable Single Ion Magnets Based on Lanthanoid Quinolinate Complexes: The Role of Intermolecular Interactions on Their Thermal Stability. Inorganic Chemistry 57, 14170–14177. (doi:10.1021/acs.inorgchem.8b02080)"
+2018_44,"Na[Er(5,7-ClIq)4]·DMF",Other Families,,Er3+,Prolate,Kramers,100.0,8.0,4.0,1562350.cif,Proper,Biaugmented trigonal prism,1.62,-6.3,1.1594845,2018,2018,10.1021/acs.inorgchem.8b02080,"Cañon-Mancisidor, W., Miralles, S. G., Baldoví, J. J., Espallargas, G. M., Gaita-Ariño, A. & Coronado, E. 2018 Sublimable Single Ion Magnets Based on Lanthanoid Quinolinate Complexes: The Role of Intermolecular Interactions on Their Thermal Stability. Inorganic Chemistry 57, 14170–14177. (doi:10.1021/acs.inorgchem.8b02080)"
+2018_45,[ZnDy(H2L)(CH3OH)2(NO3)2](NO3)·MeOH,TM near Ln,,Dy3+,Oblate,Kramers,100.0,10.0,3.0,1872145.cif,Proper,Others,2.993,,,2018,2018,10.1021/acs.inorgchem.8b02875,"Shen, F.-X., Li, H.-Q., Miao, H., Shao, D., Wei, X.-Q., Shi, L., Zhang, Y.-Q. & Wang, X.-Y. 2018 Heterometallic MIILnIII (M = Co/Zn; Ln = Dy/Y) Complexes with Pentagonal Bipyramidal 3d Centers: Syntheses, Structures, and Magnetic Properties. Inorganic Chemistry 57, 15526–15536. (doi:10.1021/acs.inorgchem.8b02875)"
+2018_46,[Dy(quinbeyz)(NO3)2(DMF)],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,4.0,1855324.cif,Proper,Spherical capped square antiprism,1.77,-1.7,1.0426445,2018,2018,10.1002/zaac.201800310,"Ji, C.-L., Jiang, Y.-X., Zhang, J.-C., Qi, Z.-Y., Kong, J.-J. & Huang, X.-C. 2018 Field-induced Slow Magnetic Relaxation Behavior in a Mononuclear Dy(III) Complex based on 8-Hydroxyquinoline Derivate Ligand. Zeitschrift für anorganische und allgemeine Chemie 644, 1635–1640. (doi:10.1002/zaac.201800310)"
+2018_47,[DyNaI(L)(CH3CO2)2]n·2CH3CN,Other Families,100000.0,Dy3+,Oblate,Kramers,100.0,8.0,3.0,1866846.cif,Proper,Biaugmented trigonal prism,3.292,-5.3,1.1339045,2018,2018,10.1016/j.inoche.2018.10.006,"Long, Q.-Q., Hu, Z.-B., Wang, H.-S., Yin, C.-L., Chen, Y., Song, Y., Zhang, Z.-C., Xia, B.-T. & Pan, Z.-Q. 2018 Field-induced single molecule magnet behavior of a DyIII-NaI one-dimensional chain extended by acetate ions. Inorganic Chemistry Communications 98, 127–131. (doi:10.1016/j.inoche.2018.10.006)"
+2018_48,[{Dy(Tp)2}2(Cl2An)]·2CH2Cl2,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,3.0,1556560.cif,Proper,Triangular dodecahedron,0.796,0.7000000000000001,0.9825245,2018,2018,10.3390/inorganics6010007,"Ishikawa, R., Michiwaki, S., Noda, T., Katoh, K., Yamashita, M., Matsubara, K. & Kawata, S. 2017 Field-Induced Slow Magnetic Relaxation of Mono- and Dinuclear Dysprosium(III) Complexes Coordinated by a Chloranilate with Different Resonance Forms. Inorganics 6, 7. (doi:10.3390/inorganics6010007)"
+2018_48,[{Gd(Tp)2}2(Cl2An)]·2CH2Cl2,Other Families,0.0,Gd3+,Isotropic,Kramers,100.0,8.0,3.0,,Proper,,,,,2018,2018,10.3390/inorganics6010007,"Ishikawa, R., Michiwaki, S., Noda, T., Katoh, K., Yamashita, M., Matsubara, K. & Kawata, S. 2017 Field-Induced Slow Magnetic Relaxation of Mono- and Dinuclear Dysprosium(III) Complexes Coordinated by a Chloranilate with Different Resonance Forms. Inorganics 6, 7. (doi:10.3390/inorganics6010007)"
+2018_48,[Co(Cp)2][Dy(Tp)2(Cl2An)],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,3.0,1556562.cif,Proper,Square antiprism,1.116,-1.3,1.0325845,2018,2018,10.3390/inorganics6010007,"Ishikawa, R., Michiwaki, S., Noda, T., Katoh, K., Yamashita, M., Matsubara, K. & Kawata, S. 2017 Field-Induced Slow Magnetic Relaxation of Mono- and Dinuclear Dysprosium(III) Complexes Coordinated by a Chloranilate with Different Resonance Forms. Inorganics 6, 7. (doi:10.3390/inorganics6010007)"
+2018_49,{[Tb(terpy)(H2O)3][Co(CN)6]·5H2O}n,Other Families,0.0,Tb3+,Oblate,Non-Kramers,100.0,8.0,6.0,1835085.cif,Proper,Triangular dodecahedron,0.784,0.1,0.9975005,2018,2018,10.1016/j.ica.2018.07.029,"Petrosyants, S. P., Ilyukhin, A. B., Efimov, N. N., Gavrikov, A. V. & Novotortsev, V. M. 2018 Self-assembly and SMM properties of lanthanide cyanocobaltate chain complexes with terpyridine as blocking ligand. Inorganica Chimica Acta 482, 813–820. (doi:10.1016/j.ica.2018.07.029)"
+2018_49,{[Dy(terpy)(H2O)3][Co(CN)6]·5H2O}n,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,6.0,1835086.cif,Proper,Triangular dodecahedron,0.764,0.1,0.9975005,2018,2018,10.1016/j.ica.2018.07.029,"Petrosyants, S. P., Ilyukhin, A. B., Efimov, N. N., Gavrikov, A. V. & Novotortsev, V. M. 2018 Self-assembly and SMM properties of lanthanide cyanocobaltate chain complexes with terpyridine as blocking ligand. Inorganica Chimica Acta 482, 813–820. (doi:10.1016/j.ica.2018.07.029)"
+2018_49,{[Er(terpy)(H2O)3][Co(CN)6]·5H2O}n,Other Families,0.0,Er3+,Prolate,Kramers,100.0,8.0,6.0,1835087.cif,Proper,Triangular dodecahedron,0.76,0.1,0.9975005,2018,2018,10.1016/j.ica.2018.07.029,"Petrosyants, S. P., Ilyukhin, A. B., Efimov, N. N., Gavrikov, A. V. & Novotortsev, V. M. 2018 Self-assembly and SMM properties of lanthanide cyanocobaltate chain complexes with terpyridine as blocking ligand. Inorganica Chimica Acta 482, 813–820. (doi:10.1016/j.ica.2018.07.029)"
+2018_49,{[Yb(terpy)(H2O)3][Co(CN)6]·5H2O}n,Other Families,0.0,Yb3+,Prolate,Kramers,100.0,8.0,6.0,1835088.cif,Proper,Triangular dodecahedron,1.229,-0.8999999999999999,1.0225405,2018,2018,10.1016/j.ica.2018.07.029,"Petrosyants, S. P., Ilyukhin, A. B., Efimov, N. N., Gavrikov, A. V. & Novotortsev, V. M. 2018 Self-assembly and SMM properties of lanthanide cyanocobaltate chain complexes with terpyridine as blocking ligand. Inorganica Chimica Acta 482, 813–820. (doi:10.1016/j.ica.2018.07.029)"
+2018_50,[Dy(L1)3],Other Families,,Dy3+,Oblate,Kramers,100.0,6.0,3.0,1586924.cif,Proper,Others,2.37,,,2018,2018,10.3390/inorganics6010016,"Guo, M. & Tang, J. 2018 Six-Coordinate Ln(III) Complexes with Various Coordination Geometries Showing Distinct Magnetic Properties. Inorganics 6, 16. (doi:10.3390/inorganics6010016)"
+2018_50,[Er(L1)3],Other Families,,Er3+,Prolate,Kramers,100.0,6.0,3.0,1586925.cif,Proper,Others,2.069,,,2018,2018,10.3390/inorganics6010016,"Guo, M. & Tang, J. 2018 Six-Coordinate Ln(III) Complexes with Various Coordination Geometries Showing Distinct Magnetic Properties. Inorganics 6, 16. (doi:10.3390/inorganics6010016)"
+2018_50,[Dy(L2)2],Other Families,,Dy3+,Oblate,Kramers,100.0,6.0,2.0,1586926.cif,Proper,Octahedron,1.681,-2.9,1.0729205,2018,2018,10.3390/inorganics6010016,"Guo, M. & Tang, J. 2018 Six-Coordinate Ln(III) Complexes with Various Coordination Geometries Showing Distinct Magnetic Properties. Inorganics 6, 16. (doi:10.3390/inorganics6010016)"
+2018_50,(H2.5O)4{Dy[Co(III)(CN)5(CNH0.5)]2(HMPA)4},P=O,,Dy3+,Oblate,Kramers,100.0,6.0,6.0,1818726.cif,Proper,Others,32.771,,,2018,2018,10.3390/inorganics6020036,"Xiong, X., Liu, Y., Li, S., Xue, A., Wang, J., Zhang, C., Zhu, W. & Sun, H. 2018 The Exploration and Analysis of the Magnetic Relaxation Behavior in Three Isostructural Cyano-Bridged 3d–4f Linear Heterotrinuclear Compounds. Inorganics 6, 36. (doi:10.3390/inorganics6020036)"
+2018_51,{[Dy(hfac)3(L)]·2C6H14}n,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,1556598.cif,Proper,Biaugmented trigonal prism,1.14,-1.9,1.0476805,2018,2018,10.3390/inorganics6020045,"Flores Gonzalez, J., Cador, O., Ouahab, L., Norkov, S., Kuropatov, V. & Pointillart, F. 2018 Field-Induced Dysprosium Single-Molecule Magnet Involving a Fused o-Semiquinone-Extended-Tetrathiafulvalene-o-Semiquinone Bridging Triad. Inorganics 6, 45. (doi:10.3390/inorganics6020045)"
+2018_52,Gd(papl)3,Other Families,,Gd3+,Isotropic,Kramers,100.0,9.0,3.0,1844759.cif,Isostructural,Others,9.381,,,2018,2018,10.3390/inorganics6020056,"Taylor, R., Bonanno, N., Cibian, M., Yadav, J., Silverstein, H., Wiebe, C., Mauws, C., Lough, A. & Lemaire, M. 2018 Homoleptic Lanthanide Complexes Containing a Redox-Active Ligand and the Investigation of Their Electronic and Photophysical Properties. Inorganics 6, 56. (doi:10.3390/inorganics6020056)"
+2018_52,Dy(papl)3,Other Families,,Dy3+,Oblate,Kramers,100.0,9.0,3.0,,Isostructural,,,,,2018,2018,10.3390/inorganics6020056,"Taylor, R., Bonanno, N., Cibian, M., Yadav, J., Silverstein, H., Wiebe, C., Mauws, C., Lough, A. & Lemaire, M. 2018 Homoleptic Lanthanide Complexes Containing a Redox-Active Ligand and the Investigation of Their Electronic and Photophysical Properties. Inorganics 6, 56. (doi:10.3390/inorganics6020056)"
+2018_52,Tb(papl)3,Other Families,,Tb3+,Oblate,Non-Kramers,100.0,9.0,3.0,,Isostructural,,,,,2018,2018,10.3390/inorganics6020056,"Taylor, R., Bonanno, N., Cibian, M., Yadav, J., Silverstein, H., Wiebe, C., Mauws, C., Lough, A. & Lemaire, M. 2018 Homoleptic Lanthanide Complexes Containing a Redox-Active Ligand and the Investigation of Their Electronic and Photophysical Properties. Inorganics 6, 56. (doi:10.3390/inorganics6020056)"
+2018_53,[Dy(OPPh3)3(NO3)3],P=O,,Dy3+,Oblate,Kramers,100.0,9.0,6.0,1556607.cif,Proper,Muffin,1.934,1.9,0.9526805,2018,2018,10.3390/inorganics6020061,"Langley, S., Vignesh, K., Holton, K., Benjamin, S., Hix, G., Phonsri, W., Moubaraki, B., Murray, K. & Rajaraman, G. 2018 Mononuclear Dysprosium(III) Complexes with Triphenylphosphine Oxide Ligands: Controlling the Coordination Environment and Magnetic Anisotropy. Inorganics 6, 61. (doi:10.3390/inorganics6020061)"
+2018_53,[Dy(OPPh3)4(NO3)2](NO3),P=O,,Dy3+,Oblate,Kramers,100.0,8.0,6.0,1556608.cif,Proper,Others,2.451,,,2018,2018,10.3390/inorganics6020061,"Langley, S., Vignesh, K., Holton, K., Benjamin, S., Hix, G., Phonsri, W., Moubaraki, B., Murray, K. & Rajaraman, G. 2018 Mononuclear Dysprosium(III) Complexes with Triphenylphosphine Oxide Ligands: Controlling the Coordination Environment and Magnetic Anisotropy. Inorganics 6, 61. (doi:10.3390/inorganics6020061)"
+2018_53,[Dy(OPPh3)3Cl3],P=O,,Dy3+,Oblate,Kramers,100.0,6.0,6.0,1556609.cif,Proper,,,,,2018,2018,10.3390/inorganics6020061,"Langley, S., Vignesh, K., Holton, K., Benjamin, S., Hix, G., Phonsri, W., Moubaraki, B., Murray, K. & Rajaraman, G. 2018 Mononuclear Dysprosium(III) Complexes with Triphenylphosphine Oxide Ligands: Controlling the Coordination Environment and Magnetic Anisotropy. Inorganics 6, 61. (doi:10.3390/inorganics6020061)"
+2018_53,[Dy(OPPh3)4Cl2]Cl,P=O,,Dy3+,Oblate,Kramers,100.0,6.0,6.0,1556610.cif,Proper,Octahedron,0.57,-6.7,1.1697445,2018,2018,10.3390/inorganics6020061,"Langley, S., Vignesh, K., Holton, K., Benjamin, S., Hix, G., Phonsri, W., Moubaraki, B., Murray, K. & Rajaraman, G. 2018 Mononuclear Dysprosium(III) Complexes with Triphenylphosphine Oxide Ligands: Controlling the Coordination Environment and Magnetic Anisotropy. Inorganics 6, 61. (doi:10.3390/inorganics6020061)"
+2018_54,GdGa(hfac)3(μ-acac)3,Diketonate,,Gd3+,Isotropic,Kramers,100.0,9.0,4.0,,,,,,,2018,2018,10.3390/inorganics6030072,"Øwre, A., Vinum, M., Kern, M., van Slageren, J., Bendix, J. & Perfetti, M. 2018 Chiral, Heterometallic Lanthanide–Transition Metal Complexes by Design. Inorganics 6, 72. (doi:10.3390/inorganics6030072)"
+2018_54,"PrGa(hfac)3(μ2-acac-O,O,O)3",Diketonate,,Pr3+,Oblate,Non-Kramers,100.0,9.0,4.0,,,,,,,2018,2018,10.3390/inorganics6030072,"Øwre, A., Vinum, M., Kern, M., van Slageren, J., Bendix, J. & Perfetti, M. 2018 Chiral, Heterometallic Lanthanide–Transition Metal Complexes by Design. Inorganics 6, 72. (doi:10.3390/inorganics6030072)"
+2018_55,[Dy(L)2(C2H5OH)Cl3]·C2H5OH,P=O,,Dy3+,Oblate,Kramers,100.0,6.0,6.0,4132550.cif,Proper,Octahedron,1.105,-4.0,1.1008,2018,2018,10.1021/jacs.8b04818,"Wang, Y.-X., Ma, Y., Chai, Y., Shi, W., Sun, Y. & Cheng, P. 2018 Observation of Magnetodielectric Effect in a Dysprosium-Based Single-Molecule Magnet. Journal of the American Chemical Society 140, 7795–7798. (doi:10.1021/jacs.8b04818)"
+2018_56,{[Dy(4-pyridone)4(H2O)2][CoIII(CN)6]}·2H2O,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,7.0,7.0,7236936.cif,Proper,Others,7.545,,,2018,2018,10.1039/c7tc03963h,"Wang, J., Chorazy, S., Nakabayashi, K., Sieklucka, B. & Ohkoshi, S. 2018 Achieving white light emission and increased magnetic anisotropy by transition metal substitution in functional materials based on dinuclear DyIII(4-pyridone)[MIII(CN)6]3− (M = Co, Rh) molecules. Journal of Materials Chemistry C 6, 473–481. (doi:10.1039/c7tc03963h)"
+2018_56,{[Dy(4-pyridone)4(H2O)2][RhIII(CN)6]}·4H2O,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,7.0,7.0,7236937.cif,Proper,Others,6.924,,,2018,2018,10.1039/c7tc03963h,"Wang, J., Chorazy, S., Nakabayashi, K., Sieklucka, B. & Ohkoshi, S. 2018 Achieving white light emission and increased magnetic anisotropy by transition metal substitution in functional materials based on dinuclear DyIII(4-pyridone)[MIII(CN)6]3− (M = Co, Rh) molecules. Journal of Materials Chemistry C 6, 473–481. (doi:10.1039/c7tc03963h)"
+2018_57,[Dy(bbpen-CH3)Cl],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,7.0,2.0,7237278.cif,Proper,Pentagonal bipyramid,1.823,7.8,0.8080419999999999,2018,2018,10.1039/c8tc00353j,"Jiang, Z., Sun, L., Yang, Q., Yin, B., Ke, H., Han, J., Wei, Q., Xie, G. & Chen, S. 2018 Excess axial electrostatic repulsion as a criterion for pentagonal bipyramidal DyIII single-ion magnets with high Ueff and TB. Journal of Materials Chemistry C 6, 4273–4280. (doi:10.1039/c8tc00353j)"
+2018_57,[Dy(bbpen-CH3)Br],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,7.0,2.0,7237279.cif,Proper,Pentagonal bipyramid,2.111,8.4,0.793528,2018,2018,10.1039/c8tc00353j,"Jiang, Z., Sun, L., Yang, Q., Yin, B., Ke, H., Han, J., Wei, Q., Xie, G. & Chen, S. 2018 Excess axial electrostatic repulsion as a criterion for pentagonal bipyramidal DyIII single-ion magnets with high Ueff and TB. Journal of Materials Chemistry C 6, 4273–4280. (doi:10.1039/c8tc00353j)"
+2018_58,[ErZn6(l3-O)3(l3-C2H4NO2)6(H2O)9]6-,TM near Ln,,Er3+,Prolate,Kramers,100.0,9.0,,1814911.cif,Proper,Spherical tricapped trigonal prism,0.323,4.5,0.8885125,2018,2018,10.1007/s10876-018-1407-1,"Guo, S., Lv, X.-C., Gao, X.-H., Li, C.-L. & Zhang, X.-F. 2018 Structures, Magnetic and Thermodynamic Properties of a 3d–4f Mixed Metal Cluster [ErZn6(μ3-O)3(μ3-C2H4NO2)6(H2O)9]6+. Journal of Cluster Science 29, 975–980. (doi:10.1007/s10876-018-1407-1)"
+2018_61,Cp*2Nd(BPh4),Other Families,100.0,Nd3+,Oblate,Kramers,100.0,6.0,3.0,,Isotructural,,,,,2018,2018,10.1016/j.jorganchem.2017.10.035,"Demir, S., Meihaus, K. R. & Long, J. R. 2018 Slow magnetic relaxation in a neodymium metallocene tetraphenylborate complex. Journal of Organometallic Chemistry 857, 164–169. (doi:10.1016/j.jorganchem.2017.10.035)"
+2018_61,Cp*2Ho(BPh4),Other Families,100.0,Ho3+,Oblate,Non-Kramers,100.0,6.0,3.0,,Isotructural,,,,,2018,2018,10.1016/j.jorganchem.2017.10.035,"Demir, S., Meihaus, K. R. & Long, J. R. 2018 Slow magnetic relaxation in a neodymium metallocene tetraphenylborate complex. Journal of Organometallic Chemistry 857, 164–169. (doi:10.1016/j.jorganchem.2017.10.035)"
+2018_61,Cp*2Er(BPh4),Other Families,100.0,Er3+,Prolate,Kramers,100.0,6.0,3.0,,Isotructural,,,,,2018,2018,10.1016/j.jorganchem.2017.10.035,"Demir, S., Meihaus, K. R. & Long, J. R. 2018 Slow magnetic relaxation in a neodymium metallocene tetraphenylborate complex. Journal of Organometallic Chemistry 857, 164–169. (doi:10.1016/j.jorganchem.2017.10.035)"
+2018_62,[Dy2(hfac)6(L)]·nC6H14,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1854828.cif,Proper,Square antiprism,0.57,-2.0,1.0502,2018,2018,10.3390/magnetochemistry4030039,"Flores Gonzalez, J., Montigaud, V., Saleh, N., Cador, O., Crassous, J., le Guennic, B. & Pointillart, F. 2018 Slow Relaxation of the Magnetization in Bis-Decorated Chiral Helicene-Based Coordination Complexes of Lanthanides. Magnetochemistry 4, 39. (doi:10.3390/magnetochemistry4030039)"
+2018_62,[Yb2(hfac)6(L)]·nC6H14,Diketonate,,Yb3+,Prolate,Kramers,100.0,8.0,4.0,1854829.cif,Proper,Triangular dodecahedron,0.594,1.3,0.9675845,2018,2018,10.3390/magnetochemistry4030039,"Flores Gonzalez, J., Montigaud, V., Saleh, N., Cador, O., Crassous, J., le Guennic, B. & Pointillart, F. 2018 Slow Relaxation of the Magnetization in Bis-Decorated Chiral Helicene-Based Coordination Complexes of Lanthanides. Magnetochemistry 4, 39. (doi:10.3390/magnetochemistry4030039)"
+2018_63,Zn3Dy(LEt)(NO3)2OAc·5H2O,TM near Ln,,Dy3+,Oblate,Kramers,100.0,6.0,,,,,,,,2018,2018,10.1002/zaac.201800155,"Feltham, H. L. C., Clérac, R., Peng, Y., Moreno-Pineda, E., Powell, A. K. & Brooker, S. 2018 The Effect of Modifying the Macrocyclic Ring Size on Zn3Ln(Ln= Dy, Er, and Yb) Single-Molecule Magnet Behavior. Zeitschrift für anorganische und allgemeine Chemie 644, 775–779. (doi:10.1002/zaac.201800155)"
+2018_63,Zn3Er(LEt)(NO3)2OAc·5H2O,TM near Ln,,Er3+,Prolate,Kramers,100.0,6.0,,,,,,,,2018,2018,10.1002/zaac.201800155,"Feltham, H. L. C., Clérac, R., Peng, Y., Moreno-Pineda, E., Powell, A. K. & Brooker, S. 2018 The Effect of Modifying the Macrocyclic Ring Size on Zn3Ln(Ln= Dy, Er, and Yb) Single-Molecule Magnet Behavior. Zeitschrift für anorganische und allgemeine Chemie 644, 775–779. (doi:10.1002/zaac.201800155)"
+2018_63,Zn3Yb(LEt)(NO3)2OAc·5H2O,TM near Ln,,Yb3+,Prolate,Kramers,100.0,6.0,,,,,,,,2018,2018,10.1002/zaac.201800155,"Feltham, H. L. C., Clérac, R., Peng, Y., Moreno-Pineda, E., Powell, A. K. & Brooker, S. 2018 The Effect of Modifying the Macrocyclic Ring Size on Zn3Ln(Ln= Dy, Er, and Yb) Single-Molecule Magnet Behavior. Zeitschrift für anorganische und allgemeine Chemie 644, 775���779. (doi:10.1002/zaac.201800155)"
+2018_64,NdMurex,Other Families,,Nd3+,Oblate,Kramers,100.0,,,1856342.cif,Proper,Square antiprism,1.168,5.2,0.871352,2018,2018,10.3390/magnetochemistry4040044,"Huang, G., Calvez, G., Suffren, Y., Daiguebonne, C., Freslon, S., Guillou, O. & Bernot, K. 2018 Closing the Circle of the Lanthanide-Murexide Series: Single-Molecule Magnet Behavior and Near-Infrared Emission of the NdIII Derivative. Magnetochemistry 4, 44. (doi:10.3390/magnetochemistry4040044)"
+2018_64,NdMurexAnhy,Other Families,,Nd3+,Oblate,Kramers,100.0,,,,Isostructural,,,,,2018,2018,10.3390/magnetochemistry4040044,"Huang, G., Calvez, G., Suffren, Y., Daiguebonne, C., Freslon, S., Guillou, O. & Bernot, K. 2018 Closing the Circle of the Lanthanide-Murexide Series: Single-Molecule Magnet Behavior and Near-Infrared Emission of the NdIII Derivative. Magnetochemistry 4, 44. (doi:10.3390/magnetochemistry4040044)"
+2018_65,[Pr(NO3)3(salanH)2(MeOH)]·(salanH),Schiff Base,,Pr3+,Oblate,Non-Kramers,100.0,9.0,6.0,,,,,,,2018,2018,10.3390/magnetochemistry4040045,"Mylonas-Margaritis, I. et al. 2018 Mononuclear Lanthanide(III)-Salicylideneaniline Complexes: Synthetic, Structural, Spectroscopic, and Magnetic Studies. Magnetochemistry 4, 45. (doi:10.3390/magnetochemistry4040045)"
+2018_65,[Nd(NO3)3(salanH)2(MeOH)]·(salanH),Schiff Base,,Nd3+,Oblate,Kramers,100.0,9.0,6.0,,,,,,,2018,2018,10.3390/magnetochemistry4040045,"Mylonas-Margaritis, I. et al. 2018 Mononuclear Lanthanide(III)-Salicylideneaniline Complexes: Synthetic, Structural, Spectroscopic, and Magnetic Studies. Magnetochemistry 4, 45. (doi:10.3390/magnetochemistry4040045)"
+2018_65,[Sm(NO3)3(salanH)2(MeOH)]·(salanH),Schiff Base,,Sm3+,Prolate,Kramers,100.0,9.0,6.0,,,,,,,2018,2018,10.3390/magnetochemistry4040045,"Mylonas-Margaritis, I. et al. 2018 Mononuclear Lanthanide(III)-Salicylideneaniline Complexes: Synthetic, Structural, Spectroscopic, and Magnetic Studies. Magnetochemistry 4, 45. (doi:10.3390/magnetochemistry4040045)"
+2018_65,[Gd(NO3)3(salanH)2(MeOH)]·(salanH),Schiff Base,,Gd3+,Isotropic,Kramers,100.0,9.0,6.0,,,,,,,2018,2018,10.3390/magnetochemistry4040045,"Mylonas-Margaritis, I. et al. 2018 Mononuclear Lanthanide(III)-Salicylideneaniline Complexes: Synthetic, Structural, Spectroscopic, and Magnetic Studies. Magnetochemistry 4, 45. (doi:10.3390/magnetochemistry4040045)"
+2018_65,[Tb(NO3)3(salanH)2(MeOH)]·(salanH),Schiff Base,,Tb3+,Oblate,Non-Kramers,100.0,9.0,6.0,,,,,,,2018,2018,10.3390/magnetochemistry4040045,"Mylonas-Margaritis, I. et al. 2018 Mononuclear Lanthanide(III)-Salicylideneaniline Complexes: Synthetic, Structural, Spectroscopic, and Magnetic Studies. Magnetochemistry 4, 45. (doi:10.3390/magnetochemistry4040045)"
+2018_65,[Dy(NO3)3(salanH)2(MeOH)]·(salanH),Schiff Base,,Dy3+,Oblate,Kramers,100.0,9.0,6.0,,,,,,,2018,2018,10.3390/magnetochemistry4040045,"Mylonas-Margaritis, I. et al. 2018 Mononuclear Lanthanide(III)-Salicylideneaniline Complexes: Synthetic, Structural, Spectroscopic, and Magnetic Studies. Magnetochemistry 4, 45. (doi:10.3390/magnetochemistry4040045)"
+2018_65,[Ho(NO3)3(salanH)2(MeOH)]·(salanH),Schiff Base,,Ho3+,Oblate,Non-Kramers,100.0,9.0,6.0,,,,,,,2018,2018,10.3390/magnetochemistry4040045,"Mylonas-Margaritis, I. et al. 2018 Mononuclear Lanthanide(III)-Salicylideneaniline Complexes: Synthetic, Structural, Spectroscopic, and Magnetic Studies. Magnetochemistry 4, 45. (doi:10.3390/magnetochemistry4040045)"
+2018_65,[Er(NO3)3(salanH)2(MeOH)]·(salanH),Schiff Base,,Er3+,Prolate,Kramers,100.0,9.0,6.0,,,,,,,2018,2018,10.3390/magnetochemistry4040045,"Mylonas-Margaritis, I. et al. 2018 Mononuclear Lanthanide(III)-Salicylideneaniline Complexes: Synthetic, Structural, Spectroscopic, and Magnetic Studies. Magnetochemistry 4, 45. (doi:10.3390/magnetochemistry4040045)"
+2018_65,[Yb(NO3)3(salanH)2(MeOH)]·(salanH),Schiff Base,,Yb3+,Prolate,Kramers,100.0,9.0,6.0,,,,,,,2018,2018,10.3390/magnetochemistry4040045,"Mylonas-Margaritis, I. et al. 2018 Mononuclear Lanthanide(III)-Salicylideneaniline Complexes: Synthetic, Structural, Spectroscopic, and Magnetic Studies. Magnetochemistry 4, 45. (doi:10.3390/magnetochemistry4040045)"
+2018_66,"[1,3-C6H4{NC(Ph)N(SiMe3)}2]3Dy2",Other Families,,Dy3+,Oblate,Kramers,100.0,6.0,3.0,1589142.cif,Proper,,,,,2018,2018,10.1016/j.mencom.2018.09.024,"Skvortsov, G. G., Cherkasov, A. V., Long, J., Larionova, J. & Trifonov, A. A. 2018 Synthesis, structure and magnetic properties of the dinuclear complex [1,3-C6H4{NC(Ph)N(SiMe3)}2]3Dy2 coordinated by ansa-bis(amidinate) ligands with a m-phenylene linker. Mendeleev Communications 28, 521–523. (doi:10.1016/j.mencom.2018.09.024)"
+2018_67,[Tb(H2dapsc)(H2O)4](NO3)3,Schiff Base,,Tb3+,Oblate,Non-Kramers,100.0,9.0,5.0,7057649.cif,Proper,Muffin,1.47,-0.8999999999999999,1.0225405,2018,2018,10.1039/c8nj01928b,"Sasnovskaya, V. D., Kopotkov, V. A., Kazakova, A. V., Talantsev, A. D., Morgunov, R. B., Simonov, S. V., Zorina, L. V., Mironov, V. S. & Yagubskii, E. B. 2018 Slow magnetic relaxation in mononuclear complexes of Tb, Dy, Ho and Er with the pentadentate (N3O2) Schiff-base dapsc ligand. New Journal of Chemistry 42, 14883–14893. (doi:10.1039/c8nj01928b)"
+2018_67,[Dy(H2dapsc)(H2O)4](NO3)3,Schiff Base,,Dy3+,Oblate,Kramers,100.0,9.0,5.0,7057647.cif,Proper,Muffin,1.417,-0.8999999999999999,1.0225405,2018,2018,10.1039/c8nj01928b,"Sasnovskaya, V. D., Kopotkov, V. A., Kazakova, A. V., Talantsev, A. D., Morgunov, R. B., Simonov, S. V., Zorina, L. V., Mironov, V. S. & Yagubskii, E. B. 2018 Slow magnetic relaxation in mononuclear complexes of Tb, Dy, Ho and Er with the pentadentate (N3O2) Schiff-base dapsc ligand. New Journal of Chemistry 42, 14883–14893. (doi:10.1039/c8nj01928b)"
+2018_67,[Ho(H2dapsc)(H2O)4](NO3)3,Schiff Base,,Ho3+,Oblate,Non-Kramers,100.0,9.0,5.0,7057650.cif,Proper,Muffin,1.371,-0.8999999999999999,1.0225405,2018,2018,10.1039/c8nj01928b,"Sasnovskaya, V. D., Kopotkov, V. A., Kazakova, A. V., Talantsev, A. D., Morgunov, R. B., Simonov, S. V., Zorina, L. V., Mironov, V. S. & Yagubskii, E. B. 2018 Slow magnetic relaxation in mononuclear complexes of Tb, Dy, Ho and Er with the pentadentate (N3O2) Schiff-base dapsc ligand. New Journal of Chemistry 42, 14883–14893. (doi:10.1039/c8nj01928b)"
+2018_67,[Er(H2dapsc)(H2O)4](NO3)3,Schiff Base,,Er3+,Prolate,Kramers,100.0,9.0,5.0,7057648.cif,Proper,Muffin,1.356,-1.0,1.02505,2018,2018,10.1039/c8nj01928b,"Sasnovskaya, V. D., Kopotkov, V. A., Kazakova, A. V., Talantsev, A. D., Morgunov, R. B., Simonov, S. V., Zorina, L. V., Mironov, V. S. & Yagubskii, E. B. 2018 Slow magnetic relaxation in mononuclear complexes of Tb, Dy, Ho and Er with the pentadentate (N3O2) Schiff-base dapsc ligand. New Journal of Chemistry 42, 14883–14893. (doi:10.1039/c8nj01928b)"
+2018_68,[Dy(pmap)3(H2O)2]·0.375CH3COOC2H5,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,7057746.cif,Proper,Square antiprism,0.879,1.2,0.970072,2018,2018,10.1039/c8nj03345e,"Li, X.-L., Li, J., Zhu, C., Han, B., Liu, Y., Yin, Z., Li, F. & Liu, C.-M. 2018 An intense luminescent Dy(iii) single-ion magnet with the acylpyrazolonate ligand showing two slow magnetic relaxation processes. New Journal of Chemistry 42, 16992–16998. (doi:10.1039/c8nj03345e)"
+2018_69,[Tb(TC4A-di-OMe)(LOEt)],TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,7.0,2.0,7057769.cif,Proper,Others,1.625,,,2018,2018,10.1039/c8nj04016h,"Ge, J.-Y., Chen, Z., Wang, H.-Y., Wang, H., Wang, P., Duan, X. & Huo, D. 2018 Thiacalix[4]arene-supported mononuclear lanthanide compounds: slow magnetic relaxation in dysprosium and erbium analogues. New Journal of Chemistry 42, 17968–17974. (doi:10.1039/c8nj04016h)"
+2018_69,[Dy(TC4A-di-OMe)(LOEt)],TM near Ln,,Dy3+,Oblate,Kramers,100.0,7.0,2.0,7057767.cif,Proper,Others,1.635,,,2018,2018,10.1039/c8nj04016h,"Ge, J.-Y., Chen, Z., Wang, H.-Y., Wang, H., Wang, P., Duan, X. & Huo, D. 2018 Thiacalix[4]arene-supported mononuclear lanthanide compounds: slow magnetic relaxation in dysprosium and erbium analogues. New Journal of Chemistry 42, 17968–17974. (doi:10.1039/c8nj04016h)"
+2018_69,[Ho(TC4A-di-OMe)(LOEt)],TM near Ln,,Ho3+,Oblate,Non-Kramers,100.0,7.0,2.0,7057770.cif,Proper,Others,1.637,,,2018,2018,10.1039/c8nj04016h,"Ge, J.-Y., Chen, Z., Wang, H.-Y., Wang, H., Wang, P., Duan, X. & Huo, D. 2018 Thiacalix[4]arene-supported mononuclear lanthanide compounds: slow magnetic relaxation in dysprosium and erbium analogues. New Journal of Chemistry 42, 17968–17974. (doi:10.1039/c8nj04016h)"
+2018_69,[Er(TC4A-di-OMe)(LOEt)],TM near Ln,,Er3+,Prolate,Kramers,100.0,7.0,2.0,7057768.cif,Proper,Others,1.41,,,2018,2018,10.1039/c8nj04016h,"Ge, J.-Y., Chen, Z., Wang, H.-Y., Wang, H., Wang, P., Duan, X. & Huo, D. 2018 Thiacalix[4]arene-supported mononuclear lanthanide compounds: slow magnetic relaxation in dysprosium and erbium analogues. New Journal of Chemistry 42, 17968–17974. (doi:10.1039/c8nj04016h)"
+2018_70,"Dy(Hthd)3(MeOH)·2,5-Py",Diketonate,,Dy3+,Oblate,Kramers,100.0,7.0,4.0,7045571.cif,Proper,Capped trigonal prism,0.4,1.5,0.9626125,2018,2018,10.1039/c7dt04764a,"Yao, X., Yan, P., An, G., Li, Y., Li, W. & Li, G. 2018 Investigation of magneto-structural correlation based on a series of seven-coordinated β-diketone Dy(iii) single-ion magnets with C2v and C3v local symmetry. Dalton Transactions 47, 3976–3984. (doi:10.1039/c7dt04764a)"
+2018_70,Dy(Hthd)3(Tppo),Diketonate,,Dy3+,Oblate,Kramers,100.0,7.0,4.0,7045574.cif,Proper,Others,0.371,,,2018,2018,10.1039/c7dt04764a,"Yao, X., Yan, P., An, G., Li, Y., Li, W. & Li, G. 2018 Investigation of magneto-structural correlation based on a series of seven-coordinated β-diketone Dy(iii) single-ion magnets with C2v and C3v local symmetry. Dalton Transactions 47, 3976–3984. (doi:10.1039/c7dt04764a)"
+2018_70,Dy(Hthd)3(PyNO),Diketonate,,Dy3+,Oblate,Kramers,100.0,7.0,4.0,7045573.cif,Proper,Others,0.783,,,2018,2018,10.1039/c7dt04764a,"Yao, X., Yan, P., An, G., Li, Y., Li, W. & Li, G. 2018 Investigation of magneto-structural correlation based on a series of seven-coordinated β-diketone Dy(iii) single-ion magnets with C2v and C3v local symmetry. Dalton Transactions 47, 3976–3984. (doi:10.1039/c7dt04764a)"
+2018_70,Dy(Hthd)3(4-PyNO),Diketonate,,Dy3+,Oblate,Kramers,100.0,7.0,4.0,7045572.cif,Proper,Others,0.295,,,2018,2018,10.1039/c7dt04764a,"Yao, X., Yan, P., An, G., Li, Y., Li, W. & Li, G. 2018 Investigation of magneto-structural correlation based on a series of seven-coordinated β-diketone Dy(iii) single-ion magnets with C2v and C3v local symmetry. Dalton Transactions 47, 3976–3984. (doi:10.1039/c7dt04764a)"
+2018_71,[ZnLCOOMenthPyDy(NO3)3]·CH2Cl2,TM near Ln,,Dy3+,Oblate,Kramers,100.0,,4.0,1574772.cif,Proper,Others,2.713,,,2018,2018,10.1002/ejic.201701129,"Béreau, V., Dhers, S., Costes, J.-P., Duhayon, C. & Sutter, J.-P. 2018 Syntheses, Structures, and Magnetic Properties of Symmetric and Dissymmetric Ester-Functionalized 3d-4f Schiff Base Complexes. European Journal of Inorganic Chemistry 2018, 66–73. (doi:10.1002/ejic.201701129)"
+2018_72,[Tb(NO3)3(Ph3PO)3],P=O,,Tb3+,Oblate,Non-Kramers,100.0,9.0,6.0,1850935.cif,Proper,,,,,2018,2018,10.3389/fchem.2018.00420,"Fondo, M., Corredoira-Vázquez, J., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M. & Colacio, E. 2018 Field-Induced Single Molecule Magnets of Phosphine- and Arsine-Oxides. Frontiers in Chemistry 6. (doi:10.3389/fchem.2018.00420)"
+2018_72,[Dy(NO3)3(Ph3PO)3],P=O,,Dy3+,Oblate,Kramers,100.0,9.0,6.0,1850934.cif,Proper,Spherical capped square antiprism,2.09,-4.6,1.116058,2018,2018,10.3389/fchem.2018.00420,"Fondo, M., Corredoira-Vázquez, J., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M. & Colacio, E. 2018 Field-Induced Single Molecule Magnets of Phosphine- and Arsine-Oxides. Frontiers in Chemistry 6. (doi:10.3389/fchem.2018.00420)"
+2018_72,[Dy(NO3)3(EtOH)(Ph3PO)2],P=O,,Dy3+,Oblate,Kramers,100.0,9.0,6.0,,,,,,,2018,2018,10.3389/fchem.2018.00420,"Fondo, M., Corredoira-Vázquez, J., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M. & Colacio, E. 2018 Field-Induced Single Molecule Magnets of Phosphine- and Arsine-Oxides. Frontiers in Chemistry 6. (doi:10.3389/fchem.2018.00420)"
+2018_72,[Dy(NO3)3(EtOH)(Ph3AsO)2],P=O,,Dy3+,Oblate,Kramers,100.0,9.0,6.0,1850933.cif,Proper,Muffin,1.987,2.4,0.940288,2018,2018,10.3389/fchem.2018.00420,"Fondo, M., Corredoira-Vázquez, J., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M. & Colacio, E. 2018 Field-Induced Single Molecule Magnets of Phosphine- and Arsine-Oxides. Frontiers in Chemistry 6. (doi:10.3389/fchem.2018.00420)"
+2018_72,[DyCl2(Ph3AsO)4]Cl,P=O,,Dy3+,Oblate,Kramers,100.0,6.0,6.0,1850936.cif,Proper,Octahedron,0.872,-8.1,1.2057805,2018,2018,10.3389/fchem.2018.00420,"Fondo, M., Corredoira-Vázquez, J., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M. & Colacio, E. 2018 Field-Induced Single Molecule Magnets of Phosphine- and Arsine-Oxides. Frontiers in Chemistry 6. (doi:10.3389/fchem.2018.00420)"
+2018_72,[Dy(OTf)2(MePh2PO)4]Otf,P=O,,Dy3+,Oblate,Kramers,100.0,6.0,6.0,,Proper,,,,,2018,2018,10.3389/fchem.2018.00420,"Fondo, M., Corredoira-Vázquez, J., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M. & Colacio, E. 2018 Field-Induced Single Molecule Magnets of Phosphine- and Arsine-Oxides. Frontiers in Chemistry 6. (doi:10.3389/fchem.2018.00420)"
+2018_72,[Tb(hfa)3(Ph3PO)2],Diketonate,,Tb3+,Oblate,Non-Kramers,100.0,8.0,5.0,1850937.cif,Proper,Square antiprism,0.58,-1.4,1.035098,2018,2018,10.3389/fchem.2018.00420,"Fondo, M., Corredoira-Vázquez, J., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M. & Colacio, E. 2018 Field-Induced Single Molecule Magnets of Phosphine- and Arsine-Oxides. Frontiers in Chemistry 6. (doi:10.3389/fchem.2018.00420)"
+2018_72,[Dy(hfa)3(Ph3PO)2],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,5.0,,Proper,,,,,2018,2018,10.3389/fchem.2018.00420,"Fondo, M., Corredoira-Vázquez, J., García-Deibe, A. M., Sanmartín-Matalobos, J., Herrera, J. M. & Colacio, E. 2018 Field-Induced Single Molecule Magnets of Phosphine- and Arsine-Oxides. Frontiers in Chemistry 6. (doi:10.3389/fchem.2018.00420)"
+2018_73,[(obPc)Tb(FusedPc)Tb(obPc)],LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,4131906.cif,Proper,Square antiprism,0.771,-7.3,1.1851645,2018,2018,10.1021/jacs.7b12667,"Morita, T. et al. 2018 Comparison of the Magnetic Anisotropy and Spin Relaxation Phenomenon of Dinuclear Terbium(III) Phthalocyaninato Single-Molecule Magnets Using the Geometric Spin Arrangement. Journal of the American Chemical Society 140, 2995–3007. (doi:10.1021/jacs.7b12667)"
+2018_73,[(obPc)Tb(FusedPc)Tb(obPc)],LnPc2,,Tb3+,Oblate,Non-Kramers,,8.0,2.0,,Isostructural,,,,,2018,2018,10.1021/jacs.7b12667,"Morita, T. et al. 2018 Comparison of the Magnetic Anisotropy and Spin Relaxation Phenomenon of Dinuclear Terbium(III) Phthalocyaninato Single-Molecule Magnets Using the Geometric Spin Arrangement. Journal of the American Chemical Society 140, 2995–3007. (doi:10.1021/jacs.7b12667)"
+2018_74,(Et3NH)[(H2L)TbCl2],Other Families,0.0,Tb3+,Oblate,Non-Kramers,100.0,7.0,3.0,,,,,,,2018,2018,10.1021/acs.inorgchem.8b00059,"Bar, A. K., Kalita, P., Sutter, J.-P. & Chandrasekhar, V. 2018 Pentagonal-Bipyramid Ln(III) Complexes Exhibiting Single-Ion-Magnet Behavior: A Rational Synthetic Approach for a Rigid Equatorial Plane. Inorganic Chemistry 57, 2398–2401. (doi:10.1021/acs.inorgchem.8b00059)"
+2018_74,(Et3NH)[(H2L)DyCl2],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,7.0,3.0,,,,,,,2018,2018,10.1021/acs.inorgchem.8b00059,"Bar, A. K., Kalita, P., Sutter, J.-P. & Chandrasekhar, V. 2018 Pentagonal-Bipyramid Ln(III) Complexes Exhibiting Single-Ion-Magnet Behavior: A Rational Synthetic Approach for a Rigid Equatorial Plane. Inorganic Chemistry 57, 2398–2401. (doi:10.1021/acs.inorgchem.8b00059)"
+2018_74,(Et3NH)[(H2L)Y0.94Dy0.06Cl2],Other Families,0.0,Dy3+,Oblate,Kramers,6.0,7.0,3.0,,,,,,,2018,2018,10.1021/acs.inorgchem.8b00059,"Bar, A. K., Kalita, P., Sutter, J.-P. & Chandrasekhar, V. 2018 Pentagonal-Bipyramid Ln(III) Complexes Exhibiting Single-Ion-Magnet Behavior: A Rational Synthetic Approach for a Rigid Equatorial Plane. Inorganic Chemistry 57, 2398–2401. (doi:10.1021/acs.inorgchem.8b00059)"
+2018_75,[Dy((-)-pbipy)(pdtc)3],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1501318.cif,Proper,Triangular dodecahedron,2.243,1.8,0.955162,2018,2018,10.1016/j.ica.2017.12.035,"Wen, H.-R., Yang, K., Liu, S.-J., Liang, F.-Y., Xie, X.-R., Liu, C.-M. & Li, Y.-W. 2018 Chiral mononuclear Dy(III) complex based on pyrrolidine-dithiocarboxylate S-donors with field-induced single-ion magnet behavior. Inorganica Chimica Acta 473, 145–151. (doi:10.1016/j.ica.2017.12.035)"
+2018_76,[ErL2(OTf)(MeOH)2](OTf)2,Schiff Base,,Er3+,Prolate,Kramers,100.0,9.0,5.0,4349806.cif,Proper,,,,,2018,2018,10.1039/c7qi00727b,"Gorczyński, A., Marcinkowski, D., Kubicki, M., Löffler, M., Korabik, M., Karbowiak, M., Wiśniewski, P., Rudowicz, C. & Patroniak, V. 2018 New field-induced single ion magnets based on prolate Er(iii) and Yb(iii) ions: tuning the energy barrierUeffby the choice of counterions within an N3-tridentate Schiff-base scaffold. Inorganic Chemistry Frontiers 5, 605–618. (doi:10.1039/c7qi00727b)"
+2018_76,[YbL2(OTf)2](OTf),Schiff Base,,Yb3+,Prolate,Kramers,100.0,8.0,4.0,4349809.cif,Proper,Others,20.496,,,2018,2018,10.1039/c7qi00727b,"Gorczyński, A., Marcinkowski, D., Kubicki, M., Löffler, M., Korabik, M., Karbowiak, M., Wiśniewski, P., Rudowicz, C. & Patroniak, V. 2018 New field-induced single ion magnets based on prolate Er(iii) and Yb(iii) ions: tuning the energy barrierUeffby the choice of counterions within an N3-tridentate Schiff-base scaffold. Inorganic Chemistry Frontiers 5, 605–618. (doi:10.1039/c7qi00727b)"
+2018_76,[ErL(NO3)3(H2O)],Schiff Base,,Er3+,Prolate,Kramers,100.0,9.0,5.0,4349808.cif,Proper,,,,,2018,2018,10.1039/c7qi00727b,"Gorczyński, A., Marcinkowski, D., Kubicki, M., Löffler, M., Korabik, M., Karbowiak, M., Wiśniewski, P., Rudowicz, C. & Patroniak, V. 2018 New field-induced single ion magnets based on prolate Er(iii) and Yb(iii) ions: tuning the energy barrierUeffby the choice of counterions within an N3-tridentate Schiff-base scaffold. Inorganic Chemistry Frontiers 5, 605–618. (doi:10.1039/c7qi00727b)"
+2018_76,[YbL(NO3)3(MeOH)]·MeCN,Schiff Base,,Yb3+,Prolate,Kramers,100.0,9.0,5.0,4349807.cif,Proper,,,,,2018,2018,10.1039/c7qi00727b,"Gorczyński, A., Marcinkowski, D., Kubicki, M., Löffler, M., Korabik, M., Karbowiak, M., Wiśniewski, P., Rudowicz, C. & Patroniak, V. 2018 New field-induced single ion magnets based on prolate Er(iii) and Yb(iii) ions: tuning the energy barrierUeffby the choice of counterions within an N3-tridentate Schiff-base scaffold. Inorganic Chemistry Frontiers 5, 605–618. (doi:10.1039/c7qi00727b)"
+2018_77,[Dy2(L)2(NO3)4(H2O)2]·2CH3OH,Schiff Base,,Dy3+,Oblate,Kramers,100.0,9.0,5.0,1458083.cif,Proper,Spherical capped square antiprism,2.186,0.8999999999999999,0.9775405,2018,2018,10.1016/j.ica.2017.08.060,"Qiao, S., Zhang, J., Zhang, S., Yang, Q., Wei, Q., Yang, D. & Chen, S. 2018 Field-induced single-molecule magnet (SMM) behavior of dinuclear DyIII system. Inorganica Chimica Acta 469, 57–65. (doi:10.1016/j.ica.2017.08.060)"
+2018_77,[Tb2(L)2(NO3)4(H2O)2]·2CH3OH,Schiff Base,,Tb3+,Oblate,Non-Kramers,100.0,9.0,5.0,1507834.cif,Proper,Spherical capped square antiprism,2.149,1.0,0.97505,2018,2018,10.1016/j.ica.2017.08.060,"Qiao, S., Zhang, J., Zhang, S., Yang, Q., Wei, Q., Yang, D. & Chen, S. 2018 Field-induced single-molecule magnet (SMM) behavior of dinuclear DyIII system. Inorganica Chimica Acta 469, 57–65. (doi:10.1016/j.ica.2017.08.060)"
+2018_77,[Er2(L)2(NO3)4(H2O)2]·2CH3OH,Schiff Base,,Er3+,Prolate,Kramers,100.0,9.0,5.0,1507833.cif,Proper,Spherical capped square antiprism,2.087,0.8,0.980032,2018,2018,10.1016/j.ica.2017.08.060,"Qiao, S., Zhang, J., Zhang, S., Yang, Q., Wei, Q., Yang, D. & Chen, S. 2018 Field-induced single-molecule magnet (SMM) behavior of dinuclear DyIII system. Inorganica Chimica Acta 469, 57–65. (doi:10.1016/j.ica.2017.08.060)"
+2019_1,[n-NBu4]3[DyH(PW11O39)(phen)2]·H2O,POM,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,7124545.cif,Proper,Square antiprism,0.858,-3.8,1.095722,2019,2019,10.1039/c9cc07868a,"Cañón-Mancisidor, W., Zapata-Lizama, M., Hermosilla-Ibáñez, P., Cruz, C., Venegas-Yazigi, D. & Mínguez Espallargas, G. 2019 Hybrid organic–inorganic mononuclear lanthanoid single ion magnets. Chemical Communications 55, 14992–14995. (doi:10.1039/c9cc07868a)"
+2019_1,[n-NBu4]3[ErH(PW11O39)(phen)2]·H2O,POM,,Er3+,Prolate,Kramers,100.0,8.0,3.0,7124547.cif,Proper,Square antiprism,0.824,-3.7,1.0931845,2019,2019,10.1039/c9cc07868a,"Cañón-Mancisidor, W., Zapata-Lizama, M., Hermosilla-Ibáñez, P., Cruz, C., Venegas-Yazigi, D. & Mínguez Espallargas, G. 2019 Hybrid organic–inorganic mononuclear lanthanoid single ion magnets. Chemical Communications 55, 14992–14995. (doi:10.1039/c9cc07868a)"
+2019_1,[n-NBu4]3[Dy0.25Y0.75H(PW11O39)(phen)2]·H2O,POM,,Dy3+,Oblate,Kramers,25.0,8.0,3.0,,Isostructural,,,,,2019,2019,10.1039/c9cc07868a,"Cañón-Mancisidor, W., Zapata-Lizama, M., Hermosilla-Ibáñez, P., Cruz, C., Venegas-Yazigi, D. & Mínguez Espallargas, G. 2019 Hybrid organic–inorganic mononuclear lanthanoid single ion magnets. Chemical Communications 55, 14992–14995. (doi:10.1039/c9cc07868a)"
+2019_2,[Dy(L1)2(THF)2][BPh4],Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1851656.cif,Proper,Biaugmented trigonal prism,0.955,-3.3,1.0830445,2019,2019,10.1002/chem.201804429,"Long, J. et al. 2018 Dysprosium Single-Molecule Magnets with Bulky Schiff Base Ligands: Modification of the Slow Relaxation of the Magnetization by Substituent Change. Chemistry - A European Journal 25, 474–478. (doi:10.1002/chem.201804429)"
+2019_2,[Dy(L2)2(py)2][BPh4],Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1851682.cif,Proper,Biaugmented trigonal prism,1.063,-3.0,1.07545,2019,2019,10.1002/chem.201804429,"Long, J. et al. 2018 Dysprosium Single-Molecule Magnets with Bulky Schiff Base Ligands: Modification of the Slow Relaxation of the Magnetization by Substituent Change. Chemistry - A European Journal 25, 474–478. (doi:10.1002/chem.201804429)"
+2019_3,Dy2Cd3,LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,1860583.cif,Proper,Triangular dodecahedron,3.041,6.600000000000001,0.837178,2019,2019,10.1002/chem.201805368,"Horii, Y., Katoh, K., Sugimoto, K., Nakanishi, R., Breedlove, B. K. & Yamashita, M. 2019 Detailed Analysis of the Crystal Structures and Magnetic Properties of a Dysprosium(III) Phthalocyaninato Sextuple‐Decker Complex: Weak f–f Interactions Suppress Magnetic Relaxation. Chemistry – A European Journal (doi:10.1002/chem.201805368)"
+2019_3,Dy2Cd2,LnPc2,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,,,,,,,2019,2019,10.1002/chem.201805368,"Horii, Y., Katoh, K., Sugimoto, K., Nakanishi, R., Breedlove, B. K. & Yamashita, M. 2019 Detailed Analysis of the Crystal Structures and Magnetic Properties of a Dysprosium(III) Phthalocyaninato Sextuple‐Decker Complex: Weak f–f Interactions Suppress Magnetic Relaxation. Chemistry – A European Journal (doi:10.1002/chem.201805368)"
+2019_4,[Dy(tmhd)3(Br2-bpy),Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,,,,,,2019,2019,10.1002/chem.201805608,"Cen, P., Liu, X., Ferrando‐Soria, J., Zhang, Y., Xie, G., Chen, S. & Pardo, E. 2019 Capping N‐Donor Ligands Modulate the Magnetic Dynamics of Dy            III            β‐Diketonate Single‐Ion Magnets with            D                          4              d                        Symmetry. Chemistry – A European Journal 25, 3884–3892. (doi:10.1002/chem.201805608)"
+2019_4,[Dy(tmhd)3(Br-bpy)],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,,,,,,2019,2019,10.1002/chem.201805608,"Cen, P., Liu, X., Ferrando‐Soria, J., Zhang, Y., Xie, G., Chen, S. & Pardo, E. 2019 Capping N‐Donor Ligands Modulate the Magnetic Dynamics of Dy            III            β‐Diketonate Single‐Ion Magnets with            D                          4              d                        Symmetry. Chemistry – A European Journal 25, 3884–3892. (doi:10.1002/chem.201805608)"
+2019_4,[Dy(tmhd)3(dppz)],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,,,,,,2019,2019,10.1002/chem.201805608,"Cen, P., Liu, X., Ferrando‐Soria, J., Zhang, Y., Xie, G., Chen, S. & Pardo, E. 2019 Capping N‐Donor Ligands Modulate the Magnetic Dynamics of Dy            III            β‐Diketonate Single‐Ion Magnets with            D                          4              d                        Symmetry. Chemistry – A European Journal 25, 3884–3892. (doi:10.1002/chem.201805608)"
+2019_4,[Dy(tmhd)3(mcdpq)],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,,,,,,2019,2019,10.1002/chem.201805608,"Cen, P., Liu, X., Ferrando‐Soria, J., Zhang, Y., Xie, G., Chen, S. & Pardo, E. 2019 Capping N‐Donor Ligands Modulate the Magnetic Dynamics of Dy            III            β‐Diketonate Single‐Ion Magnets with            D                          4              d                        Symmetry. Chemistry – A European Journal 25, 3884–3892. (doi:10.1002/chem.201805608)"
+2019_5,"[Dy(2,2’-bipyridine N,N’-dioxide)2(H2O)][CuI2(CN)5]·5H2O",Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,6.0,1897923.cif,Proper,Triangular dodecahedron,0.347,0.8,0.980032,2019,2019,10.1002/chem.201902420,"Zakrzewski, J. J., Chorazy, S., Nakabayashi, K., Ohkoshi, S. & Sieklucka, B. 2019 Photoluminescent Lanthanide(III) Single‐Molecule Magnets in Three‐Dimensional Polycyanidocuprate(I)‐Based Frameworks. Chemistry – A European Journal 25, 11820��11825. (doi:10.1002/chem.201902420)"
+2019_5,"[Yb(2,2’-bipyridine N,N’-dioxide)2(H2O)][CuI2(CN)5]·5H2O",Other Families,0.0,Yb3+,Prolate,Kramers,100.0,8.0,6.0,1897922.cif,Proper,Triangular dodecahedron,0.36,0.3,0.9925045,2019,2019,10.1002/chem.201902420,"Zakrzewski, J. J., Chorazy, S., Nakabayashi, K., Ohkoshi, S. & Sieklucka, B. 2019 Photoluminescent Lanthanide(III) Single‐Molecule Magnets in Three‐Dimensional Polycyanidocuprate(I)‐Based Frameworks. Chemistry – A European Journal 25, 11820–11825. (doi:10.1002/chem.201902420)"
+2019_6,[Dy(LE)(PhO)2](BPh4)·4THF,Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,,,,,,,2019,2019,10.1002/chem.201904325,"Li, Z., Zhai, Y., Chen, W., Ding, Y. & Zheng, Y. 2019 Air‐Stable Hexagonal Bipyramidal Dysprosium(III) Single‐Ion Magnets with Nearly Perfect            D                          6              h                        Local Symmetry. Chemistry – A European Journal 25, 16219–16224. (doi:10.1002/chem.201904325)"
+2019_6,[Dy(LE)(4-MeO-PhO)2](BPh4)·3THF,Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,1937907.cif,Proper,Others,1.054,,,2019,2019,10.1002/chem.201904325,"Li, Z., Zhai, Y., Chen, W., Ding, Y. & Zheng, Y. 2019 Air‐Stable Hexagonal Bipyramidal Dysprosium(III) Single‐Ion Magnets with Nearly Perfect            D                          6              h                        Local Symmetry. Chemistry – A European Journal 25, 16219–16224. (doi:10.1002/chem.201904325)"
+2019_6,[Dy(LE)(naPhO)2](BPh4)·4THF,Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,3.0,1937911.cif,Proper,Others,1.254,,,2019,2019,10.1002/chem.201904325,"Li, Z., Zhai, Y., Chen, W., Ding, Y. & Zheng, Y. 2019 Air‐Stable Hexagonal Bipyramidal Dysprosium(III) Single‐Ion Magnets with Nearly Perfect            D                          6              h                        Local Symmetry. Chemistry – A European Journal 25, 16219–16224. (doi:10.1002/chem.201904325)"
+2019_7,[Dy(HPPBA)3·(H2O)6]n,Other Families,,Dy3+,Oblate,Kramers,100.0,9.0,6.0,7233402.cif,Proper,Spherical tricapped trigonal prism,1.015,6.800000000000001,0.8323119999999999,2019,2019,10.1039/c9ce01026b,"Bhattacharya, S., Bala, S. & Mondal, R. 2019 Ln-MOFs using a compartmental ligand with a unique combination of hard–soft terminals and their magnetic, gas adsorption and luminescence properties. CrystEngComm 21, 5665–5672. (doi:10.1039/c9ce01026b)"
+2019_8,[Zn(μ-L)(μ-OBz)Dy(NO3)2]·4CH3OH·H2O,TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,4.0,,,,,,,2019,2019,10.1039/c8dt03800g,"Echenique-Errandonea, E., Zabala-Lekuona, A., Cepeda, J., Rodríguez-Diéguez, A., Seco, J. M., Oyarzabal, I. & Colacio, E. 2019 Effect of the change of the ancillary carboxylate bridging ligand on the SMM and luminescence properties of a series of carboxylate-diphenoxido triply bridged dinuclear ZnLn and tetranuclear Zn2Ln2 complexes (Ln = Dy, Er). Dalton Transactions 48, 190–201. (doi:10.1039/c8dt03800g)"
+2019_8,[Zn(μ-L)(μ-OBz)Er(NO3)2]·4CH3OH·H2O,TM near Ln,,Er3+,Prolate,Kramers,100.0,9.0,4.0,,,,,,,2019,2019,10.1039/c8dt03800g,"Echenique-Errandonea, E., Zabala-Lekuona, A., Cepeda, J., Rodríguez-Diéguez, A., Seco, J. M., Oyarzabal, I. & Colacio, E. 2019 Effect of the change of the ancillary carboxylate bridging ligand on the SMM and luminescence properties of a series of carboxylate-diphenoxido triply bridged dinuclear ZnLn and tetranuclear Zn2Ln2 complexes (Ln = Dy, Er). Dalton Transactions 48, 190–201. (doi:10.1039/c8dt03800g)"
+2019_8,[Zn(μ-L)(μ-9-An)Dy(NO3)2]·CH3CN,TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,4.0,,,,,,,2019,2019,10.1039/c8dt03800g,"Echenique-Errandonea, E., Zabala-Lekuona, A., Cepeda, J., Rodríguez-Diéguez, A., Seco, J. M., Oyarzabal, I. & Colacio, E. 2019 Effect of the change of the ancillary carboxylate bridging ligand on the SMM and luminescence properties of a series of carboxylate-diphenoxido triply bridged dinuclear ZnLn and tetranuclear Zn2Ln2 complexes (Ln = Dy, Er). Dalton Transactions 48, 190–201. (doi:10.1039/c8dt03800g)"
+2019_8,[Zn(μ-L)(μ-9-An)Er(NO3)2]·CH3CN,TM near Ln,,Er3+,Prolate,Kramers,100.0,9.0,4.0,,,,,,,2019,2019,10.1039/c8dt03800g,"Echenique-Errandonea, E., Zabala-Lekuona, A., Cepeda, J., Rodríguez-Diéguez, A., Seco, J. M., Oyarzabal, I. & Colacio, E. 2019 Effect of the change of the ancillary carboxylate bridging ligand on the SMM and luminescence properties of a series of carboxylate-diphenoxido triply bridged dinuclear ZnLn and tetranuclear Zn2Ln2 complexes (Ln = Dy, Er). Dalton Transactions 48, 190–201. (doi:10.1039/c8dt03800g)"
+2019_8,[Zn(μ-L)(μ-dicl)Dy(NO3)2]·H2O,TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,4.0,,,,,,,2019,2019,10.1039/c8dt03800g,"Echenique-Errandonea, E., Zabala-Lekuona, A., Cepeda, J., Rodríguez-Diéguez, A., Seco, J. M., Oyarzabal, I. & Colacio, E. 2019 Effect of the change of the ancillary carboxylate bridging ligand on the SMM and luminescence properties of a series of carboxylate-diphenoxido triply bridged dinuclear ZnLn and tetranuclear Zn2Ln2 complexes (Ln = Dy, Er). Dalton Transactions 48, 190–201. (doi:10.1039/c8dt03800g)"
+2019_8,[Zn(μ-L)(μ-dicl)Er(NO3)2]·H2O,TM near Ln,,Er3+,Prolate,Kramers,100.0,9.0,4.0,,,,,,,2019,2019,10.1039/c8dt03800g,"Echenique-Errandonea, E., Zabala-Lekuona, A., Cepeda, J., Rodríguez-Diéguez, A., Seco, J. M., Oyarzabal, I. & Colacio, E. 2019 Effect of the change of the ancillary carboxylate bridging ligand on the SMM and luminescence properties of a series of carboxylate-diphenoxido triply bridged dinuclear ZnLn and tetranuclear Zn2Ln2 complexes (Ln = Dy, Er). Dalton Transactions 48, 190–201. (doi:10.1039/c8dt03800g)"
+2019_8,[Zn(μ-L)(μ-sal)Dy(NO3)2]·2CH3CN,TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,4.0,,,,,,,2019,2019,10.1039/c8dt03800g,"Echenique-Errandonea, E., Zabala-Lekuona, A., Cepeda, J., Rodríguez-Diéguez, A., Seco, J. M., Oyarzabal, I. & Colacio, E. 2019 Effect of the change of the ancillary carboxylate bridging ligand on the SMM and luminescence properties of a series of carboxylate-diphenoxido triply bridged dinuclear ZnLn and tetranuclear Zn2Ln2 complexes (Ln = Dy, Er). Dalton Transactions 48, 190–201. (doi:10.1039/c8dt03800g)"
+2019_8,[Zn(μ-L)(μ-sal)Er(NO3)2]·2CH3CN,TM near Ln,,Er3+,Prolate,Kramers,100.0,9.0,4.0,,,,,,,2019,2019,10.1039/c8dt03800g,"Echenique-Errandonea, E., Zabala-Lekuona, A., Cepeda, J., Rodríguez-Diéguez, A., Seco, J. M., Oyarzabal, I. & Colacio, E. 2019 Effect of the change of the ancillary carboxylate bridging ligand on the SMM and luminescence properties of a series of carboxylate-diphenoxido triply bridged dinuclear ZnLn and tetranuclear Zn2Ln2 complexes (Ln = Dy, Er). Dalton Transactions 48, 190–201. (doi:10.1039/c8dt03800g)"
+2019_8,"[Zn(μ-L)(μ-2,6-dihydbenz)Er(NO3)2]·2CH3CN",TM near Ln,,Er3+,Prolate,Kramers,100.0,9.0,4.0,,,,,,,2019,2019,10.1039/c8dt03800g,"Echenique-Errandonea, E., Zabala-Lekuona, A., Cepeda, J., Rodríguez-Diéguez, A., Seco, J. M., Oyarzabal, I. & Colacio, E. 2019 Effect of the change of the ancillary carboxylate bridging ligand on the SMM and luminescence properties of a series of carboxylate-diphenoxido triply bridged dinuclear ZnLn and tetranuclear Zn2Ln2 complexes (Ln = Dy, Er). Dalton Transactions 48, 190–201. (doi:10.1039/c8dt03800g)"
+2019_9,[Zn4Dy2(L1)2(L2)2(N3)2]Cl2·2H2O,TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,6.0,1818434.cif,Proper,Muffin,1.569,-1.7,1.0426445,2019,2019,10.1039/c8dt03849j,"Yin, C.-L., Hu, Z.-B., Long, Q.-Q., Wang, H.-S., Li, J., Song, Y., Zhang, Z.-C., Zhang, Y.-Q. & Pan, Z.-Q. 2019 Single molecule magnet behaviors of Zn4Ln2 (Ln = DyIII, TbIII) complexes with multidentate organic ligands formed by absorption of CO2 in air through in situ reactions. Dalton Transactions 48, 512–522. (doi:10.1039/c8dt03849j)"
+2019_9,[Zn4Tb2(L1)2(L2)2(Cl)2][ZnN3Cl3]·2H2O,TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,9.0,6.0,1818433.cif,Proper,Muffin,1.617,-1.5,1.0376125,2019,2019,10.1039/c8dt03849j,"Yin, C.-L., Hu, Z.-B., Long, Q.-Q., Wang, H.-S., Li, J., Song, Y., Zhang, Z.-C., Zhang, Y.-Q. & Pan, Z.-Q. 2019 Single molecule magnet behaviors of Zn4Ln2 (Ln = DyIII, TbIII) complexes with multidentate organic ligands formed by absorption of CO2 in air through in situ reactions. Dalton Transactions 48, 512–522. (doi:10.1039/c8dt03849j)"
+2019_10,[ZnNd(L)(MeOH)(NO3)3]·MeOH (9RR),Schiff Base,,Nd3+,Oblate,Kramers,100.0,,7.0,,Isostructural,,,,,2019,2019,10.1039/c8dt03679a,"Mayans, J., Saez, Q., Font-Bardia, M. & Escuer, A. 2019 Enhancement of magnetic relaxation properties with 3d diamagnetic cations in [ZnIILnIII] and [NiIILnIII], LnIII= Kramers lanthanides. Dalton Transactions 48, 641–652. (doi:10.1039/c8dt03679a)"
+2019_10,[ZnDy(L)(MeOH)(NO3)3]·MeOH (10SS),Schiff Base,,Dy3+,Oblate,Kramers,100.0,,7.0,,Isostructural,,,,,2019,2019,10.1039/c8dt03679a,"Mayans, J., Saez, Q., Font-Bardia, M. & Escuer, A. 2019 Enhancement of magnetic relaxation properties with 3d diamagnetic cations in [ZnIILnIII] and [NiIILnIII], LnIII= Kramers lanthanides. Dalton Transactions 48, 641–652. (doi:10.1039/c8dt03679a)"
+2019_10,[ZnEr(L)(MeOH)(NO3)3]·MeOH (11SS),Schiff Base,,Er3+,Prolate,Kramers,100.0,,7.0,,Isostructural,,,,,2019,2019,10.1039/c8dt03679a,"Mayans, J., Saez, Q., Font-Bardia, M. & Escuer, A. 2019 Enhancement of magnetic relaxation properties with 3d diamagnetic cations in [ZnIILnIII] and [NiIILnIII], LnIII= Kramers lanthanides. Dalton Transactions 48, 641–652. (doi:10.1039/c8dt03679a)"
+2019_10,[ZnYb(L)(MeOH)(NO3)3]·MeOH (12RR),Schiff Base,,Yb3+,Prolate,Kramers,100.0,,7.0,,Isostructural,,,,,2019,2019,10.1039/c8dt03679a,"Mayans, J., Saez, Q., Font-Bardia, M. & Escuer, A. 2019 Enhancement of magnetic relaxation properties with 3d diamagnetic cations in [ZnIILnIII] and [NiIILnIII], LnIII= Kramers lanthanides. Dalton Transactions 48, 641–652. (doi:10.1039/c8dt03679a)"
+2019_11,[Dy(HMPA)2(H2O)5]2Br6·2HMPA·2H2O,P=O,,Dy3+,Oblate,Kramers,100.0,7.0,7.0,7048451.cif,Proper,Pentagonal bipyramid,0.186,2.7,0.9328645,2019,2019,10.1039/c8dt03565b,"Li, L.-L., Su, H.-D., Liu, S., Xu, Y.-C. & Wang, W.-Z. 2019 A new air- and moisture-stable pentagonal-bipyramidal DyIII single-ion magnet based on the HMPA ligand. Dalton Transactions 48, 2213–2219. (doi:10.1039/c8dt03565b)"
+2019_11,[Dy0.05Y0.95(HMPA)2(H2O)5]2Br6·2HMPA·2H2O,P=O,,Dy3+,Oblate,Kramers,5.0,7.0,7.0,,Isostructural,,,,,2019,2019,10.1039/c8dt03565b,"Li, L.-L., Su, H.-D., Liu, S., Xu, Y.-C. & Wang, W.-Z. 2019 A new air- and moisture-stable pentagonal-bipyramidal DyIII single-ion magnet based on the HMPA ligand. Dalton Transactions 48, 2213–2219. (doi:10.1039/c8dt03565b)"
+2019_12,[Dy(depma)2(H2O)6]Cl3·6H2O,P=O,,Dy3+,Oblate,Kramers,100.0,8.0,8.0,1884676.cif,Proper,Biaugmented trigonal prism,6.325,-1.0,1.02505,2019,2019,10.1039/c9dt00073a,"Zou, Q., Huang, X.-D., Liu, J.-C., Bao, S.-S. & Zheng, L.-M. 2019 Lanthanide anthracene complexes: slow magnetic relaxation and luminescence in DyIII, ErIII and YbIII based materials. Dalton Transactions 48, 2735–2740. (doi:10.1039/c9dt00073a)"
+2019_12,[Er(depma)2(H2O)6]Cl3·6H2O,P=O,,Er3+,Prolate,Kramers,100.0,8.0,8.0,,Proper,,,,,2019,2019,10.1039/c9dt00073a,"Zou, Q., Huang, X.-D., Liu, J.-C., Bao, S.-S. & Zheng, L.-M. 2019 Lanthanide anthracene complexes: slow magnetic relaxation and luminescence in DyIII, ErIII and YbIII based materials. Dalton Transactions 48, 2735–2740. (doi:10.1039/c9dt00073a)"
+2019_12,[Yb(depma)2(H2O)6]Cl3·3H2O·CH3OH,P=O,,Yb3+,Prolate,Kramers,100.0,8.0,8.0,1884678.cif,Proper,Biaugmented trigonal prism,6.567,-1.2,1.030072,2019,2019,10.1039/c9dt00073a,"Zou, Q., Huang, X.-D., Liu, J.-C., Bao, S.-S. & Zheng, L.-M. 2019 Lanthanide anthracene complexes: slow magnetic relaxation and luminescence in DyIII, ErIII and YbIII based materials. Dalton Transactions 48, 2735–2740. (doi:10.1039/c9dt00073a)"
+2019_13,[Gd(NO3)(L)2(HOCH3)],Schiff Base,,Gd3+,Isotropic,Kramers,100.0,9.0,4.0,,Proper,,,,,2019,2019,10.1039/c9dt00504h,"Kalita, P., Malakar, A., Goura, J., Nayak, S., Herrera, J. M., Colacio, E. & Chandrasekhar, V. 2019 Mononuclear lanthanide complexes assembled from a tridentate NNO donor ligand: design of a DyIII single-ion magnet. Dalton Transactions 48, 4857–4866. (doi:10.1039/c9dt00504h)"
+2019_13,[Tb(NO3)(L)2(HOCH3)],Schiff Base,,Tb3+,Oblate,Non-Kramers,100.0,9.0,4.0,7049291.cif,Proper,Spherical tricapped trigonal prism,1.388,-0.6,1.015018,2019,2019,10.1039/c9dt00504h,"Kalita, P., Malakar, A., Goura, J., Nayak, S., Herrera, J. M., Colacio, E. & Chandrasekhar, V. 2019 Mononuclear lanthanide complexes assembled from a tridentate NNO donor ligand: design of a DyIII single-ion magnet. Dalton Transactions 48, 4857–4866. (doi:10.1039/c9dt00504h)"
+2019_13,[Dy(NO3)(L)2(HOCH3)],Schiff Base,,Dy3+,Oblate,Kramers,100.0,9.0,4.0,7049290.cif,Proper,Spherical tricapped trigonal prism,1.373,-0.3,1.0075045,2019,2019,10.1039/c9dt00504h,"Kalita, P., Malakar, A., Goura, J., Nayak, S., Herrera, J. M., Colacio, E. & Chandrasekhar, V. 2019 Mononuclear lanthanide complexes assembled from a tridentate NNO donor ligand: design of a DyIII single-ion magnet. Dalton Transactions 48, 4857–4866. (doi:10.1039/c9dt00504h)"
+2019_13,[Dy(NO3)(L)2(HOCH3)],Schiff Base,,Dy3+,Oblate,Kramers,6.25,9.0,4.0,,Isostructural,,,,,2019,2019,10.1039/c9dt00504h,"Kalita, P., Malakar, A., Goura, J., Nayak, S., Herrera, J. M., Colacio, E. & Chandrasekhar, V. 2019 Mononuclear lanthanide complexes assembled from a tridentate NNO donor ligand: design of a DyIII single-ion magnet. Dalton Transactions 48, 4857–4866. (doi:10.1039/c9dt00504h)"
+2019_13,[Ho(NO3)(L)2(HOCH3)],Schiff Base,,Ho3+,Oblate,Non-Kramers,100.0,9.0,4.0,7049292.cif,Proper,Spherical tricapped trigonal prism,1.253,-0.5,1.0125125,2019,2019,10.1039/c9dt00504h,"Kalita, P., Malakar, A., Goura, J., Nayak, S., Herrera, J. M., Colacio, E. & Chandrasekhar, V. 2019 Mononuclear lanthanide complexes assembled from a tridentate NNO donor ligand: design of a DyIII single-ion magnet. Dalton Transactions 48, 4857–4866. (doi:10.1039/c9dt00504h)"
+2019_14,[ZnLClTb(o-van)(H2O)(NO3)]·H2O,TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,9.0,4.0,1913024.cif,Proper,Muffin,1.839,3.3,0.9180445,2019,2019,10.1039/c9dt02228g,"Boulkedid, A.-L., Beghidja, A., Beghidja, C., Guari, Y., Larionova, J. & Long, J. 2019 Synthesis, structure and magnetic properties of a series of dinuclear heteroleptic Zn2+/Ln3+ Schiff base complexes: effect of lanthanide ions on the slow relaxation of magnetization. Dalton Transactions 48, 11637–11641. (doi:10.1039/c9dt02228g)"
+2019_14,[ZnLClDy(o-van)(H2O)(NO3)]·H2O,TM near Ln,,Dy3+,Oblate,Kramers,100.0,9.0,4.0,1913022.cif,Proper,Muffin,1.852,3.3,0.9180445,2019,2019,10.1039/c9dt02228g,"Boulkedid, A.-L., Beghidja, A., Beghidja, C., Guari, Y., Larionova, J. & Long, J. 2019 Synthesis, structure and magnetic properties of a series of dinuclear heteroleptic Zn2+/Ln3+ Schiff base complexes: effect of lanthanide ions on the slow relaxation of magnetization. Dalton Transactions 48, 11637–11641. (doi:10.1039/c9dt02228g)"
+2019_14,[ZnLClEr(o-van)(H2O)(NO3)]·H2O,TM near Ln,,Er3+,Prolate,Kramers,100.0,9.0,4.0,1913023.cif,Proper,Muffin,1.807,3.3,0.9180445,2019,2019,10.1039/c9dt02228g,"Boulkedid, A.-L., Beghidja, A., Beghidja, C., Guari, Y., Larionova, J. & Long, J. 2019 Synthesis, structure and magnetic properties of a series of dinuclear heteroleptic Zn2+/Ln3+ Schiff base complexes: effect of lanthanide ions on the slow relaxation of magnetization. Dalton Transactions 48, 11637–11641. (doi:10.1039/c9dt02228g)"
+2019_15,[Dy(L)(Dppd)]·solvent,Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,1911942.cif,Proper,Triangular dodecahedron,1.256,0.7000000000000001,0.9825245,2019,2019,10.1039/c9dt02618e,"Zhang, S., Mo, W., Zhang, Z., Gao, F., Wang, L., Hu, D. & Chen, S. 2019 Ligand ratio/solvent-influenced syntheses, crystal structures, and magnetic properties of polydentate Schiff base ligand-Dy(iii) compounds with β-diketonate ligands as co-ligands. Dalton Transactions 48, 12466–12481. (doi:10.1039/c9dt02618e)"
+2019_15,[Dy(L)(Dppd)],Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,2.0,1911944.cif,Proper,Triangular dodecahedron,1.764,0.6,0.985018,2019,2019,10.1039/c9dt02618e,"Zhang, S., Mo, W., Zhang, Z., Gao, F., Wang, L., Hu, D. & Chen, S. 2019 Ligand ratio/solvent-influenced syntheses, crystal structures, and magnetic properties of polydentate Schiff base ligand-Dy(iii) compounds with β-diketonate ligands as co-ligands. Dalton Transactions 48, 12466–12481. (doi:10.1039/c9dt02618e)"
+2019_16,[Er(H2O)5(NCS)3]·H2O,Other Families,0.0,Er3+,Prolate,Kramers,100.0,8.0,6.0,1904401.cif,Proper,Square antiprism,0.541,-3.0,1.07545,2019,2019,10.1039/c9dt02260k,"Petrosyants, S. P., Babeshkin, K. A., Gavrikov, A. V., Ilyukhin, A. B., Belova, E. V. & Efimov, N. N. 2019 Towards comparative investigation of Er- and Yb-based SMMs: the effect of the coordination environment configuration on the magnetic relaxation in the series of heteroleptic thiocyanate complexes. Dalton Transactions 48, 12644–12655. (doi:10.1039/c9dt02260k)"
+2019_16,[Yb(H2O)5(NCS)3]·H2O,Other Families,0.0,Yb3+,Prolate,Kramers,100.0,8.0,6.0,1904402.cif,Proper,Square antiprism,0.52,-3.0,1.07545,2019,2019,10.1039/c9dt02260k,"Petrosyants, S. P., Babeshkin, K. A., Gavrikov, A. V., Ilyukhin, A. B., Belova, E. V. & Efimov, N. N. 2019 Towards comparative investigation of Er- and Yb-based SMMs: the effect of the coordination environment configuration on the magnetic relaxation in the series of heteroleptic thiocyanate complexes. Dalton Transactions 48, 12644–12655. (doi:10.1039/c9dt02260k)"
+2019_16,[Er(H2O)(bpy)2(NCS)3]·0.5(bpy)·H2O,Other Families,0.0,Er3+,Prolate,Kramers,100.0,8.0,6.0,1904403.cif,Proper,Square antiprism,0.537,-4.6,1.116058,2019,2019,10.1039/c9dt02260k,"Petrosyants, S. P., Babeshkin, K. A., Gavrikov, A. V., Ilyukhin, A. B., Belova, E. V. & Efimov, N. N. 2019 Towards comparative investigation of Er- and Yb-based SMMs: the effect of the coordination environment configuration on the magnetic relaxation in the series of heteroleptic thiocyanate complexes. Dalton Transactions 48, 12644–12655. (doi:10.1039/c9dt02260k)"
+2019_16,[Yb(H2O)(bpy)2(NCS)3]·0.5(bpy)·H2O,Other Families,0.0,Yb3+,Prolate,Kramers,100.0,8.0,6.0,1904404.cif,Proper,Square antiprism,0.532,-4.5,1.1135125,2019,2019,10.1039/c9dt02260k,"Petrosyants, S. P., Babeshkin, K. A., Gavrikov, A. V., Ilyukhin, A. B., Belova, E. V. & Efimov, N. N. 2019 Towards comparative investigation of Er- and Yb-based SMMs: the effect of the coordination environment configuration on the magnetic relaxation in the series of heteroleptic thiocyanate complexes. Dalton Transactions 48, 12644–12655. (doi:10.1039/c9dt02260k)"
+2019_16,[Er(H2O)(phen)2(NCS)3]·phen·0.5H2O,Other Families,0.0,Er3+,Prolate,Kramers,100.0,8.0,6.0,1904405.cif,Proper,Square antiprism,2.068,-4.9,1.1237005,2019,2019,10.1039/c9dt02260k,"Petrosyants, S. P., Babeshkin, K. A., Gavrikov, A. V., Ilyukhin, A. B., Belova, E. V. & Efimov, N. N. 2019 Towards comparative investigation of Er- and Yb-based SMMs: the effect of the coordination environment configuration on the magnetic relaxation in the series of heteroleptic thiocyanate complexes. Dalton Transactions 48, 12644–12655. (doi:10.1039/c9dt02260k)"
+2019_16,[Yb(H2O)(phen)2(NCS)3]·phen·0.5H2O,Other Families,0.0,Yb3+,Prolate,Kramers,100.0,8.0,6.0,1904406.cif,Proper,Square antiprism,2.071,-4.9,1.1237005,2019,2019,10.1039/c9dt02260k,"Petrosyants, S. P., Babeshkin, K. A., Gavrikov, A. V., Ilyukhin, A. B., Belova, E. V. & Efimov, N. N. 2019 Towards comparative investigation of Er- and Yb-based SMMs: the effect of the coordination environment configuration on the magnetic relaxation in the series of heteroleptic thiocyanate complexes. Dalton Transactions 48, 12644–12655. (doi:10.1039/c9dt02260k)"
+2019_16,[Hbpy][Er(bpy)2(NCS)4]·H2O,Other Families,0.0,Er3+,Prolate,Kramers,100.0,8.0,6.0,,,,,,,2019,2019,10.1039/c9dt02260k,"Petrosyants, S. P., Babeshkin, K. A., Gavrikov, A. V., Ilyukhin, A. B., Belova, E. V. & Efimov, N. N. 2019 Towards comparative investigation of Er- and Yb-based SMMs: the effect of the coordination environment configuration on the magnetic relaxation in the series of heteroleptic thiocyanate complexes. Dalton Transactions 48, 12644–12655. (doi:10.1039/c9dt02260k)"
+2019_16,[Hbpy][Yb(bpy)2(NCS)4]·H2O,Other Families,0.0,Yb3+,Prolate,Kramers,100.0,8.0,6.0,,,,,,,2019,2019,10.1039/c9dt02260k,"Petrosyants, S. P., Babeshkin, K. A., Gavrikov, A. V., Ilyukhin, A. B., Belova, E. V. & Efimov, N. N. 2019 Towards comparative investigation of Er- and Yb-based SMMs: the effect of the coordination environment configuration on the magnetic relaxation in the series of heteroleptic thiocyanate complexes. Dalton Transactions 48, 12644–12655. (doi:10.1039/c9dt02260k)"
+2019_16,[Hphen][Er(phen)2(NCS)4],Other Families,0.0,Er3+,Prolate,Kramers,100.0,8.0,6.0,1904407.cif,Proper,Square antiprism,0.388,-3.1,1.0779805,2019,2019,10.1039/c9dt02260k,"Petrosyants, S. P., Babeshkin, K. A., Gavrikov, A. V., Ilyukhin, A. B., Belova, E. V. & Efimov, N. N. 2019 Towards comparative investigation of Er- and Yb-based SMMs: the effect of the coordination environment configuration on the magnetic relaxation in the series of heteroleptic thiocyanate complexes. Dalton Transactions 48, 12644–12655. (doi:10.1039/c9dt02260k)"
+2019_16,[Hphen][Yb(phen)2(NCS)4],Other Families,0.0,Yb3+,Prolate,Kramers,100.0,8.0,6.0,1904408.cif,Proper,Square antiprism,0.511,-3.1,1.0779805,2019,2019,10.1039/c9dt02260k,"Petrosyants, S. P., Babeshkin, K. A., Gavrikov, A. V., Ilyukhin, A. B., Belova, E. V. & Efimov, N. N. 2019 Towards comparative investigation of Er- and Yb-based SMMs: the effect of the coordination environment configuration on the magnetic relaxation in the series of heteroleptic thiocyanate complexes. Dalton Transactions 48, 12644–12655. (doi:10.1039/c9dt02260k)"
+2019_17,[ErL1(OAc)]·H2O·EtOH,Schiff Base,,Er3+,Prolate,Kramers,100.0,8.0,2.0,1916225.cif,Proper,Biaugmented trigonal prism,1.74,-3.0,1.07545,2019,2019,10.1039/c9dt02434d,"Kühne, I. A. et al. 2019 Comparison of two field-induced ErIII single ion magnets. Dalton Transactions 48, 15679–15686. (doi:10.1039/c9dt02434d)"
+2019_17,[ErL1CF3CO2],Schiff Base,,Er3+,Prolate,Kramers,100.0,8.0,2.0,1916226.cif,Proper,Triangular dodecahedron,1.511,-1.9,1.0476805,2019,2019,10.1039/c9dt02434d,"Kühne, I. A. et al. 2019 Comparison of two field-induced ErIII single ion magnets. Dalton Transactions 48, 15679–15686. (doi:10.1039/c9dt02434d)"
+2019_18,[Dy(H3NAP)2Cl2]Cl·EtOH,Schiff Base,,Dy3+,Oblate,Kramers,100.0,6.0,4.0,7702244.cif,Proper,,,,,2019,2019,10.1039/c9dt03253c,"Yu, S., Chen, Z., Hu, H., Li, B., Liang, Y., Liu, D., Zou, H., Yao, D. & Liang, F. 2019 Two mononuclear dysprosium(iii) complexes with their slow magnetic relaxation behaviors tuned by coordination geometry. Dalton Transactions 48, 16679–16686. (doi:10.1039/c9dt03253c)"
+2019_18,[Dy(H3NAP)2(H2O)Cl2]Cl·2CH3CN·MeOH·0.5H2O,Schiff Base,,Dy3+,Oblate,Kramers,100.0,7.0,5.0,7702245.cif,Proper,,,,,2019,2019,10.1039/c9dt03253c,"Yu, S., Chen, Z., Hu, H., Li, B., Liang, Y., Liu, D., Zou, H., Yao, D. & Liang, F. 2019 Two mononuclear dysprosium(iii) complexes with their slow magnetic relaxation behaviors tuned by coordination geometry. Dalton Transactions 48, 16679–16686. (doi:10.1039/c9dt03253c)"
+2019_19,[Dy(hni)(NO3)(DMF)2]·DMF,Schiff Base,,Dy3+,Oblate,Kramers,100.0,9.0,5.0,7701460.cif,Proper,Spherical tricapped trigonal prism,1.748,7.199999999999999,0.822592,2019,2019,10.1039/c9dt02646k,"Cheng, L.-W., Zhang, C.-L., Wei, J.-Y. & Lin, P.-H. 2019 Mononuclear and trinuclear DyIII SMMs with Schiff-base ligands modified by nitro-groups: first triangular complex with a N–N pathway. Dalton Transactions 48, 17331–17339. (doi:10.1039/c9dt02646k)"
+2019_19,[Dy(hni)2(H2O)2]·NO3·EtOH,Schiff Base,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,7701463.cif,Proper,Triangular dodecahedron,0.966,2.6,0.935338,2019,2019,10.1039/c9dt02646k,"Cheng, L.-W., Zhang, C.-L., Wei, J.-Y. & Lin, P.-H. 2019 Mononuclear and trinuclear DyIII SMMs with Schiff-base ligands modified by nitro-groups: first triangular complex with a N–N pathway. Dalton Transactions 48, 17331–17339. (doi:10.1039/c9dt02646k)"
+2019_20,TbH(TPTCPc)2,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,1859776.cif,Proper,Square antiprism,0.696,-6.800000000000001,1.172312,2019,2019,10.1002/ejic.201900038,"Zhi, Q., Ma, F., Wang, C., Chen, Y., Wang, H., Sun, H. & Jiang, J. 2019 Single-Ion Magnet Investigation of ABAB-Type Tetrachloro- and Tetraalkoxy-Substituted Bis(phthalocyaninato) Terbium Double-Decker with D                        2 Symmetrical Ligand Field. European Journal of Inorganic Chemistry 2019, 1329–1334. (doi:10.1002/ejic.201900038)"
+2019_20,[Tb(trans-TPTCPc)2]–·[N(nBu)4]+,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,,,,,,,2019,2019,10.1002/ejic.201900038,"Zhi, Q., Ma, F., Wang, C., Chen, Y., Wang, H., Sun, H. & Jiang, J. 2019 Single-Ion Magnet Investigation of ABAB-Type Tetrachloro- and Tetraalkoxy-Substituted Bis(phthalocyaninato) Terbium Double-Decker with D                        2 Symmetrical Ligand Field. European Journal of Inorganic Chemistry 2019, 1329–1334. (doi:10.1002/ejic.201900038)"
+2019_21,[Dy(HL)]·CH3OH,Other Families,,Dy3+,Oblate,Kramers,100.0,7.0,,1849448.cif,Proper,Capped trigonal prism,1.285,1.2,0.970072,2019,2019,10.1002/ejic.201801492,"Wen, H.-R., Zhang, J.-L., Liang, F.-Y., Yang, K., Liu, S.-J. & Liu, C.-M. 2019 Multifunctional Lanthanide Complexes Based on Tetraazacyclolamidophenol Ligand with Field-Induced Slow Magnetic Relaxation, Luminescent and SHG Properties. European Journal of Inorganic Chemistry 2019, 1406–1412. (doi:10.1002/ejic.201801492)"
+2019_22,TbL3Phen,Diketonate,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,1951981.cif,Isostructural,Square antiprism,0.595,-3.9,1.0982605,2019,2019,10.1002/ejic.201900976,"Prytula‐Kurkunova, A. Y., Pichon, C., Duhayon, C., Amirkhanov, V. M. & Sutter, J. 2019 Mononuclear Lanthanide Complexes Containing [O‐O]‐Chelating Sulfonylamidophosphate Type Ligands. European Journal of Inorganic Chemistry 2019, 4592–4596. (doi:10.1002/ejic.201900976)"
+2019_22,DyL3Phen,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,Isostructural,,,,,2019,2019,10.1002/ejic.201900976,"Prytula‐Kurkunova, A. Y., Pichon, C., Duhayon, C., Amirkhanov, V. M. & Sutter, J. 2019 Mononuclear Lanthanide Complexes Containing [O‐O]‐Chelating Sulfonylamidophosphate Type Ligands. European Journal of Inorganic Chemistry 2019, 4592–4596. (doi:10.1002/ejic.201900976)"
+2019_22,HoL3Phen,Diketonate,,Ho3+,Oblate,Non-Kramers,100.0,8.0,4.0,,Isostructural,,,,,2019,2019,10.1002/ejic.201900976,"Prytula‐Kurkunova, A. Y., Pichon, C., Duhayon, C., Amirkhanov, V. M. & Sutter, J. 2019 Mononuclear Lanthanide Complexes Containing [O‐O]‐Chelating Sulfonylamidophosphate Type Ligands. European Journal of Inorganic Chemistry 2019, 4592–4596. (doi:10.1002/ejic.201900976)"
+2019_22,ErL3Phen,Diketonate,,Er3+,Prolate,Kramers,100.0,8.0,4.0,,Isostructural,,,,,2019,2019,10.1002/ejic.201900976,"Prytula‐Kurkunova, A. Y., Pichon, C., Duhayon, C., Amirkhanov, V. M. & Sutter, J. 2019 Mononuclear Lanthanide Complexes Containing [O‐O]‐Chelating Sulfonylamidophosphate Type Ligands. European Journal of Inorganic Chemistry 2019, 4592–4596. (doi:10.1002/ejic.201900976)"
+2019_22,YbL3Phen,Diketonate,,Yb3+,Prolate,Kramers,100.0,8.0,4.0,,Proper,,,,,2019,2019,10.1002/ejic.201900976,"Prytula‐Kurkunova, A. Y., Pichon, C., Duhayon, C., Amirkhanov, V. M. & Sutter, J. 2019 Mononuclear Lanthanide Complexes Containing [O‐O]‐Chelating Sulfonylamidophosphate Type Ligands. European Journal of Inorganic Chemistry 2019, 4592–4596. (doi:10.1002/ejic.201900976)"
+2019_23,(Et3NH)[Dy(BrMQ)4]·H2O·DMF,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1857464.cif,Proper,Square antiprism,1.944,-5.9,1.1492405,2019,2019,10.1021/acs.inorgchem.8b02250,"Zou, H.-H., Meng, T., Chen, Q., Zhang, Y.-Q., Wang, H.-L., Li, B., Wang, K., Chen, Z.-L. & Liang, F. 2019 Bifunctional Mononuclear Dysprosium Complexes: Single-Ion Magnet Behaviors and Antitumor Activities. Inorganic Chemistry 58, 2286–2298. (doi:10.1021/acs.inorgchem.8b02250)"
+2019_23,(Et3NH)[Dy(BrMQ)4]·H2O·DMF,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1857460.cif,Proper,Triangular dodecahedron,1.915,-5.2,1.131352,2019,2019,10.1021/acs.inorgchem.8b02250,"Zou, H.-H., Meng, T., Chen, Q., Zhang, Y.-Q., Wang, H.-L., Li, B., Wang, K., Chen, Z.-L. & Liang, F. 2019 Bifunctional Mononuclear Dysprosium Complexes: Single-Ion Magnet Behaviors and Antitumor Activities. Inorganic Chemistry 58, 2286–2298. (doi:10.1021/acs.inorgchem.8b02250)"
+2019_23,[Dy(ClMQ)4]·H2O·DMF,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,,,,,,2019,2019,10.1021/acs.inorgchem.8b02250,"Zou, H.-H., Meng, T., Chen, Q., Zhang, Y.-Q., Wang, H.-L., Li, B., Wang, K., Chen, Z.-L. & Liang, F. 2019 Bifunctional Mononuclear Dysprosium Complexes: Single-Ion Magnet Behaviors and Antitumor Activities. Inorganic Chemistry 58, 2286–2298. (doi:10.1021/acs.inorgchem.8b02250)"
+2019_23,[Dy(ClMQ)4]·H2O·DMF,Other Families,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,,,,,,2019,2019,10.1021/acs.inorgchem.8b02250,"Zou, H.-H., Meng, T., Chen, Q., Zhang, Y.-Q., Wang, H.-L., Li, B., Wang, K., Chen, Z.-L. & Liang, F. 2019 Bifunctional Mononuclear Dysprosium Complexes: Single-Ion Magnet Behaviors and Antitumor Activities. Inorganic Chemistry 58, 2286–2298. (doi:10.1021/acs.inorgchem.8b02250)"
+2019_24,TmI2(18-c-6),Crown Ether,,Tm3+,Prolate,Non-Kramers,100.0,8.0,3.0,1847987.cif,Proper,Others,2.536,,,2019,2019,10.1021/acs.inorgchem.8b03551,"Xémard, M., Cordier, M., Molton, F., Duboc, C., Le Guennic, B., Maury, O., Cador, O. & Nocton, G. 2019 Divalent Thulium Crown Ether Complexes with Field-Induced Slow Magnetic Relaxation. Inorganic Chemistry 58, 2872–2880. (doi:10.1021/acs.inorgchem.8b03551)"
+2019_24,TmI(BH4)(18-c-6),Crown Ether,,Tm3+,Prolate,Non-Kramers,100.0,8.0,3.0,1847988.cif,Proper,,,,,2019,2019,10.1021/acs.inorgchem.8b03551,"Xémard, M., Cordier, M., Molton, F., Duboc, C., Le Guennic, B., Maury, O., Cador, O. & Nocton, G. 2019 Divalent Thulium Crown Ether Complexes with Field-Induced Slow Magnetic Relaxation. Inorganic Chemistry 58, 2872–2880. (doi:10.1021/acs.inorgchem.8b03551)"
+2019_25,[{Nd(apdo)(H2O)4}{CoIII(CN)6}]·2H2O,Other Families,0.0,Nd3+,Oblate,Kramers,100.0,8.0,8.0,1855281.cif,Proper,Triangular dodecahedron,0.551,0.5,0.9875125,2019,2019,10.1021/acs.inorgchem.8b02096,"Chorazy, S., Zychowicz, M., Ohkoshi, S. & Sieklucka, B. 2018 Wide-Range UV-to-Visible Excitation of Near-Infrared Emission and Slow Magnetic Relaxation in LnIII(4,4′-Azopyridine-1,1′-dioxide)[CoIII(CN)6]3– Layered Frameworks. Inorganic Chemistry 58, 165–179. (doi:10.1021/acs.inorgchem.8b02096)"
+2019_25,[{Tb(apdo)(H2O)4}{CoIII(CN)6}]·2H2O,Other Families,0.0,Tb3+,Oblate,Non-Kramers,100.0,8.0,8.0,1855282.cif,Proper,Triangular dodecahedron,0.644,0.7000000000000001,0.9825245,2019,2019,10.1021/acs.inorgchem.8b02096,"Chorazy, S., Zychowicz, M., Ohkoshi, S. & Sieklucka, B. 2018 Wide-Range UV-to-Visible Excitation of Near-Infrared Emission and Slow Magnetic Relaxation in LnIII(4,4′-Azopyridine-1,1′-dioxide)[CoIII(CN)6]3– Layered Frameworks. Inorganic Chemistry 58, 165–179. (doi:10.1021/acs.inorgchem.8b02096)"
+2019_25,[{Dy(apdo)(H2O)4}{CoIII(CN)6}]·2H2O,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,8.0,8.0,1855280.cif,Proper,Triangular dodecahedron,0.668,0.7000000000000001,0.9825245,2019,2019,10.1021/acs.inorgchem.8b02096,"Chorazy, S., Zychowicz, M., Ohkoshi, S. & Sieklucka, B. 2018 Wide-Range UV-to-Visible Excitation of Near-Infrared Emission and Slow Magnetic Relaxation in LnIII(4,4′-Azopyridine-1,1′-dioxide)[CoIII(CN)6]3– Layered Frameworks. Inorganic Chemistry 58, 165–179. (doi:10.1021/acs.inorgchem.8b02096)"
+2019_25,[{Er(apdo)(H2O)4}{CoIII(CN)6}]·2H2O,Other Families,0.0,Er3+,Prolate,Kramers,100.0,8.0,8.0,1855283.cif,Proper,Triangular dodecahedron,0.698,0.6,0.985018,2019,2019,10.1021/acs.inorgchem.8b02096,"Chorazy, S., Zychowicz, M., Ohkoshi, S. & Sieklucka, B. 2018 Wide-Range UV-to-Visible Excitation of Near-Infrared Emission and Slow Magnetic Relaxation in LnIII(4,4′-Azopyridine-1,1′-dioxide)[CoIII(CN)6]3– Layered Frameworks. Inorganic Chemistry 58, 165–179. (doi:10.1021/acs.inorgchem.8b02096)"
+2019_25,[{Tm(apdo)(H2O)4}{CoIII(CN)6}]·2H2O,Other Families,0.0,Tm3+,Prolate,Non-Kramers,100.0,8.0,8.0,1855285.cif,Proper,Triangular dodecahedron,0.724,0.6,0.985018,2019,2019,10.1021/acs.inorgchem.8b02096,"Chorazy, S., Zychowicz, M., Ohkoshi, S. & Sieklucka, B. 2018 Wide-Range UV-to-Visible Excitation of Near-Infrared Emission and Slow Magnetic Relaxation in LnIII(4,4′-Azopyridine-1,1′-dioxide)[CoIII(CN)6]3– Layered Frameworks. Inorganic Chemistry 58, 165–179. (doi:10.1021/acs.inorgchem.8b02096)"
+2019_25,[{Yb(apdo)(H2O)4}{CoIII(CN)6}]·2H2O,Other Families,0.0,Yb3+,Prolate,Kramers,100.0,8.0,8.0,1855284.cif,Proper,Triangular dodecahedron,0.756,0.6,0.985018,2019,2019,10.1021/acs.inorgchem.8b02096,"Chorazy, S., Zychowicz, M., Ohkoshi, S. & Sieklucka, B. 2018 Wide-Range UV-to-Visible Excitation of Near-Infrared Emission and Slow Magnetic Relaxation in LnIII(4,4′-Azopyridine-1,1′-dioxide)[CoIII(CN)6]3– Layered Frameworks. Inorganic Chemistry 58, 165–179. (doi:10.1021/acs.inorgchem.8b02096)"
+2019_26,(PPN+){Tb(Pc2−)2}−·2.5C6H4Cl2,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,1874822.cif,Proper,Square antiprism,0.804,-7.199999999999999,1.182592,2019,2019,10.1021/acs.inorgchem.9b00131,"Konarev, D. V. et al. 2019 Effect of One- and Two-Electron Reduction of Terbium(III) Double-Decker Phthalocyanine on Single-Ion Magnet Behavior and NIR Absorption. Inorganic Chemistry 58, 5058–5068. (doi:10.1021/acs.inorgchem.9b00131)"
+2019_26,{Cryptand(Na+)}2{(Pc2−)Tb(Pc•3−)}2−,LnPc2,,Tb3+,Oblate,Non-Kramers,100.0,8.0,2.0,1874824.cif,Proper,Square antiprism,0.806,-6.5,1.1646125,2019,2019,10.1021/acs.inorgchem.9b00131,"Konarev, D. V. et al. 2019 Effect of One- and Two-Electron Reduction of Terbium(III) Double-Decker Phthalocyanine on Single-Ion Magnet Behavior and NIR Absorption. Inorganic Chemistry 58, 5058–5068. (doi:10.1021/acs.inorgchem.9b00131)"
+2019_27,"[Dy(tmpd)3(4,4′-dmpy)]",Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1937104.cif,Proper,Triangular dodecahedron,0.767,3.5,0.9131125,2019,2019,10.1021/acs.inorgchem.9b02322,"Zhang, S., Mo, W., Zhang, J., Zhang, Z., Yin, B., Hu, D. & Chen, S. 2019 Regulation of Substituent Effects on Configurations and Magnetic Performances of Mononuclear DyIII Single-Molecule Magnets. Inorganic Chemistry 58, 15330–15343. (doi:10.1021/acs.inorgchem.9b02322)"
+2019_27,"[Dy(tffb)3(4,4′-dmpy)]",Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1937105.cif,Proper,Triangular dodecahedron,0.701,3.4,0.915578,2019,2019,10.1021/acs.inorgchem.9b02322,"Zhang, S., Mo, W., Zhang, J., Zhang, Z., Yin, B., Hu, D. & Chen, S. 2019 Regulation of Substituent Effects on Configurations and Magnetic Performances of Mononuclear DyIII Single-Molecule Magnets. Inorganic Chemistry 58, 15330–15343. (doi:10.1021/acs.inorgchem.9b02322)"
+2019_27,"[Dy(tffb)3(5,5′-dmpy)]",Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1937106.cif,Proper,Square antiprism,0.526,-3.9,1.0982605,2019,2019,10.1021/acs.inorgchem.9b02322,"Zhang, S., Mo, W., Zhang, J., Zhang, Z., Yin, B., Hu, D. & Chen, S. 2019 Regulation of Substituent Effects on Configurations and Magnetic Performances of Mononuclear DyIII Single-Molecule Magnets. Inorganic Chemistry 58, 15330–15343. (doi:10.1021/acs.inorgchem.9b02322)"
+2019_27,"[Dy(tmpd)3(5,5′-dmpy)]",Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1937107.cif,Proper,Square antiprism,0.76,-3.9,1.0982605,2019,2019,10.1021/acs.inorgchem.9b02322,"Zhang, S., Mo, W., Zhang, J., Zhang, Z., Yin, B., Hu, D. & Chen, S. 2019 Regulation of Substituent Effects on Configurations and Magnetic Performances of Mononuclear DyIII Single-Molecule Magnets. Inorganic Chemistry 58, 15330–15343. (doi:10.1021/acs.inorgchem.9b02322)"
+2019_28,[(TbL3)(LiL)(MeOH)],Diketonate,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,1855392.cif,Proper,Triangular dodecahedron,1.134,2.9,0.9279205,2019,2019,10.1039/c8qi00772a,"Bazhin, D. N., Kudyakova, Y. S., Bogomyakov, A. S., Slepukhin, P. A., Kim, G. A., Burgart, Y. V. & Saloutin, V. I. 2019 Dinuclear lanthanide–lithium complexes based on fluorinated β-diketonate with acetal group: magnetism and effect of crystal packing on mechanoluminescence. Inorganic Chemistry Frontiers 6, 40–49. (doi:10.1039/c8qi00772a)"
+2019_28,[(DyL3)(LiL)(MeOH)],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1855393.cif,Proper,Triangular dodecahedron,1.144,2.9,0.9279205,2019,2019,10.1039/c8qi00772a,"Bazhin, D. N., Kudyakova, Y. S., Bogomyakov, A. S., Slepukhin, P. A., Kim, G. A., Burgart, Y. V. & Saloutin, V. I. 2019 Dinuclear lanthanide–lithium complexes based on fluorinated β-diketonate with acetal group: magnetism and effect of crystal packing on mechanoluminescence. Inorganic Chemistry Frontiers 6, 40–49. (doi:10.1039/c8qi00772a)"
+2019_28,[(TbL3)(LiL)(H2O)],Diketonate,,Tb3+,Oblate,Non-Kramers,100.0,8.0,4.0,1855395.cif,Proper,Triangular dodecahedron,1.867,1.6,0.960128,2019,2019,10.1039/c8qi00772a,"Bazhin, D. N., Kudyakova, Y. S., Bogomyakov, A. S., Slepukhin, P. A., Kim, G. A., Burgart, Y. V. & Saloutin, V. I. 2019 Dinuclear lanthanide–lithium complexes based on fluorinated β-diketonate with acetal group: magnetism and effect of crystal packing on mechanoluminescence. Inorganic Chemistry Frontiers 6, 40–49. (doi:10.1039/c8qi00772a)"
+2019_28,[(DyL3)(LiL)(H2O)],Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,1855396.cif,Proper,Triangular dodecahedron,1.777,1.5,0.9626125,2019,2019,10.1039/c8qi00772a,"Bazhin, D. N., Kudyakova, Y. S., Bogomyakov, A. S., Slepukhin, P. A., Kim, G. A., Burgart, Y. V. & Saloutin, V. I. 2019 Dinuclear lanthanide–lithium complexes based on fluorinated β-diketonate with acetal group: magnetism and effect of crystal packing on mechanoluminescence. Inorganic Chemistry Frontiers 6, 40–49. (doi:10.1039/c8qi00772a)"
+2019_29,[Dy(tta)3(L)]·C6H14,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,,,,,,2019,2019,10.1039/c8qi01209a,"Flores Gonzalez, J., Pointillart, F. & Cador, O. 2019 Hyperfine coupling and slow magnetic relaxation in isotopically enriched DyIII mononuclear single-molecule magnets. Inorganic Chemistry Frontiers 6, 1081–1086. (doi:10.1039/c8qi01209a)"
+2019_29,[161Dy(tta)3(L)]·C6H14,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,,,,,,2019,2019,10.1039/c8qi01209a,"Flores Gonzalez, J., Pointillart, F. & Cador, O. 2019 Hyperfine coupling and slow magnetic relaxation in isotopically enriched DyIII mononuclear single-molecule magnets. Inorganic Chemistry Frontiers 6, 1081–1086. (doi:10.1039/c8qi01209a)"
+2019_29,[162Dy(tta)3(L)]·C6H14,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,,,,,,2019,2019,10.1039/c8qi01209a,"Flores Gonzalez, J., Pointillart, F. & Cador, O. 2019 Hyperfine coupling and slow magnetic relaxation in isotopically enriched DyIII mononuclear single-molecule magnets. Inorganic Chemistry Frontiers 6, 1081–1086. (doi:10.1039/c8qi01209a)"
+2019_29,[163Dy(tta)3(L)]·C6H14,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,,,,,,2019,2019,10.1039/c8qi01209a,"Flores Gonzalez, J., Pointillart, F. & Cador, O. 2019 Hyperfine coupling and slow magnetic relaxation in isotopically enriched DyIII mononuclear single-molecule magnets. Inorganic Chemistry Frontiers 6, 1081–1086. (doi:10.1039/c8qi01209a)"
+2019_29,[164Dy(tta)3(L)]·C6H14,Diketonate,,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,,,,,,2019,2019,10.1039/c8qi01209a,"Flores Gonzalez, J., Pointillart, F. & Cador, O. 2019 Hyperfine coupling and slow magnetic relaxation in isotopically enriched DyIII mononuclear single-molecule magnets. Inorganic Chemistry Frontiers 6, 1081–1086. (doi:10.1039/c8qi01209a)"
+2019_29,[161Dy0.05Y0.95(tta)3(L)]·C6H14,Diketonate,,Dy3+,Oblate,Kramers,5.0,8.0,4.0,,,,,,,2019,2019,10.1039/c8qi01209a,"Flores Gonzalez, J., Pointillart, F. & Cador, O. 2019 Hyperfine coupling and slow magnetic relaxation in isotopically enriched DyIII mononuclear single-molecule magnets. Inorganic Chemistry Frontiers 6, 1081–1086. (doi:10.1039/c8qi01209a)"
+2019_29,[162Dy0.05Y0.95(tta)3(L)]·C6H14,Diketonate,,Dy3+,Oblate,Kramers,5.0,8.0,4.0,,,,,,,2019,2019,10.1039/c8qi01209a,"Flores Gonzalez, J., Pointillart, F. & Cador, O. 2019 Hyperfine coupling and slow magnetic relaxation in isotopically enriched DyIII mononuclear single-molecule magnets. Inorganic Chemistry Frontiers 6, 1081–1086. (doi:10.1039/c8qi01209a)"
+2019_29,[163Dy0.05Y0.95(tta)3(L)]·C6H14,Diketonate,,Dy3+,Oblate,Kramers,5.0,8.0,4.0,,,,,,,2019,2019,10.1039/c8qi01209a,"Flores Gonzalez, J., Pointillart, F. & Cador, O. 2019 Hyperfine coupling and slow magnetic relaxation in isotopically enriched DyIII mononuclear single-molecule magnets. Inorganic Chemistry Frontiers 6, 1081–1086. (doi:10.1039/c8qi01209a)"
+2019_29,[164Dy0.05Y0.95(tta)3(L)]·C6H14,Diketonate,,Dy3+,Oblate,Kramers,5.0,8.0,4.0,,,,,,,2019,2019,10.1039/c8qi01209a,"Flores Gonzalez, J., Pointillart, F. & Cador, O. 2019 Hyperfine coupling and slow magnetic relaxation in isotopically enriched DyIII mononuclear single-molecule magnets. Inorganic Chemistry Frontiers 6, 1081–1086. (doi:10.1039/c8qi01209a)"
+2019_30,[Dy(L1)3(CH3OH)·Phen]n(Cl-1),Other Families,,Dy3+,Oblate,Kramers,100.0,7.0,4.0,4350057.cif,Proper,Capped trigonal prism,2.034,4.4,0.890968,2019,2019,10.1039/c9qi00582j,"Wang, H.-L., Ma, X.-F., Zhu, Z.-H., Zhang, Y.-Q., Zou, H.-H. & Liang, F.-P. 2019 A series of dysprosium-based hydrogen-bonded organic frameworks (Dy–HOFs): thermally triggered off → on conversion of a single-ion magnet. Inorganic Chemistry Frontiers 6, 2906–2913. (doi:10.1039/c9qi00582j)"
+2019_30,[Dy(L2)3(CH3OH)·Phen]n(Br-1),Other Families,,Dy3+,Oblate,Kramers,100.0,7.0,4.0,4350058.cif,Proper,Capped trigonal prism,2.167,4.7,0.8836045,2019,2019,10.1039/c9qi00582j,"Wang, H.-L., Ma, X.-F., Zhu, Z.-H., Zhang, Y.-Q., Zou, H.-H. & Liang, F.-P. 2019 A series of dysprosium-based hydrogen-bonded organic frameworks (Dy–HOFs): thermally triggered off → on conversion of a single-ion magnet. Inorganic Chemistry Frontiers 6, 2906–2913. (doi:10.1039/c9qi00582j)"
+2019_30,[Dy(L1)(NO3)3(CH3OH)·(Phen)(Phen + H)]n(Cl-2),Other Families,,Dy3+,Oblate,Kramers,100.0,7.0,4.0,4350059.cif,Proper,Capped trigonal prism,7.873,-6.600000000000001,1.167178,2019,2019,10.1039/c9qi00582j,"Wang, H.-L., Ma, X.-F., Zhu, Z.-H., Zhang, Y.-Q., Zou, H.-H. & Liang, F.-P. 2019 A series of dysprosium-based hydrogen-bonded organic frameworks (Dy–HOFs): thermally triggered off → on conversion of a single-ion magnet. Inorganic Chemistry Frontiers 6, 2906–2913. (doi:10.1039/c9qi00582j)"
+2019_30,[Dy(L2)(NO3)3(CH3OH)·(Phen)(Phen + H)]n(Br-2),Other Families,,Dy3+,Oblate,Kramers,100.0,7.0,4.0,1888146.cif,Proper,Capped trigonal prism,7.873,-6.600000000000001,1.167178,2019,2019,10.1039/c9qi00582j,"Wang, H.-L., Ma, X.-F., Zhu, Z.-H., Zhang, Y.-Q., Zou, H.-H. & Liang, F.-P. 2019 A series of dysprosium-based hydrogen-bonded organic frameworks (Dy–HOFs): thermally triggered off → on conversion of a single-ion magnet. Inorganic Chemistry Frontiers 6, 2906–2913. (doi:10.1039/c9qi00582j)"
+2019_31,[Dy(bbpen)(tpeCOOH)]⋅2MeOH,Other Families,100000.0,Dy3+,Oblate,Kramers,100.0,8.0,2.0,1890513.cif,Proper,Triangular dodecahedron,2.776,-1.6,1.040128,2019,2019,10.1016/j.inoche.2019.02.003,"Lu, G., Wang, J., Zhang, C.-J., Bala, S., Chen, Y.-C., Huang, G.-Z., Ni, Z.-P. & Tong, M.-L. 2019 Single-ion magnet and luminescent properties in a Dy(III) triangular dodecahedral complex. Inorganic Chemistry Communications 102, 16–19. (doi:10.1016/j.inoche.2019.02.003)"
+2019_32,[Gd(bbpen)Cl],Other Families,,Gd3+,Isotropic,Kramers,100.0,7.0,2.0,,Proper,,,,,2019,2019,10.1016/j.inoche.2019.107449,"Chen, Y.-C., Peng, Y.-Y., Liu, J.-L. & Tong, M.-L. 2019 Field-induced slow magnetic relaxation in a mononuclear Gd(III) complex. Inorganic Chemistry Communications 107, 107449. (doi:10.1016/j.inoche.2019.107449)"
+2019_32,[Gd0.05Y0.95(bbpen)Cl],Other Families,,Gd3+,Isotropic,Kramers,5.0,7.0,2.0,,,,,,,2019,2019,10.1016/j.inoche.2019.107449,"Chen, Y.-C., Peng, Y.-Y., Liu, J.-L. & Tong, M.-L. 2019 Field-induced slow magnetic relaxation in a mononuclear Gd(III) complex. Inorganic Chemistry Communications 107, 107449. (doi:10.1016/j.inoche.2019.107449)"
+2019_34,[Tb(terpy)2(NCS)3],Other Families,0.0,Tb3+,Oblate,Non-Kramers,100.0,9.0,5.0,1856741.cif,Proper,Muffin,1.219,-1.1,1.0275605,2019,2019,10.1016/j.ica.2018.11.006,"Petrosyants, S. P., Ilyukhin, A. B., Gavrikov, A. V., Mikhlina, Y. A., Puntus, L. N., Varaksina, E. A., Efimov, N. N. & Novotortsev, V. M. 2019 Luminescent and magnetic properties of mononuclear lanthanide thiocyanates with terpyridine as auxiliary ligand. Inorganica Chimica Acta 486, 499–505. (doi:10.1016/j.ica.2018.11.006)"
+2019_34,[Dy(terpy)2(NCS)3],Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,5.0,1856742.cif,Proper,Spherical tricapped trigonal prism,1.175,5.1,0.8738005,2019,2019,10.1016/j.ica.2018.11.006,"Petrosyants, S. P., Ilyukhin, A. B., Gavrikov, A. V., Mikhlina, Y. A., Puntus, L. N., Varaksina, E. A., Efimov, N. N. & Novotortsev, V. M. 2019 Luminescent and magnetic properties of mononuclear lanthanide thiocyanates with terpyridine as auxiliary ligand. Inorganica Chimica Acta 486, 499–505. (doi:10.1016/j.ica.2018.11.006)"
+2019_35,[Dy(HL)2(NO3)3(CH3OH)],Schiff Base,,Dy3+,Oblate,Kramers,100.0,9.0,6.0,1891752.cif,Proper,Others,3.336,,,2019,2019,10.1016/j.ica.2019.04.051,"Yang, H., Liu, S.-S., Meng, Y.-S., Zhang, Y.-Q., Pu, L. & Yu, X.-Q. 2019 Magnetic properties and theoretical calculations of mononuclear lanthanide complexes with a Schiff base coordinated to Ln(III) ion in a monodentate coordination mode. Inorganica Chimica Acta 494, 8–12. (doi:10.1016/j.ica.2019.04.051)"
+2019_35,[DyxY(1-x)(HL)2(NO3)3(CH3OH)],Schiff Base,,Dy3+,Oblate,Kramers,5.0,9.0,6.0,,Isostructural,,,,,2019,2019,10.1016/j.ica.2019.04.051,"Yang, H., Liu, S.-S., Meng, Y.-S., Zhang, Y.-Q., Pu, L. & Yu, X.-Q. 2019 Magnetic properties and theoretical calculations of mononuclear lanthanide complexes with a Schiff base coordinated to Ln(III) ion in a monodentate coordination mode. Inorganica Chimica Acta 494, 8–12. (doi:10.1016/j.ica.2019.04.051)"
+2019_36,[Tb(CpiPr5)2][B(C6F5)4],Metallocene,,Tb3+,Oblate,Non-Kramers,100.0,2.0,2.0,,,,,,,2019,2019,10.1021/jacs.9b05816,"Gould, C. A., McClain, K. R., Yu, J. M., Groshens, T. J., Furche, F., Harvey, B. G. & Long, J. R. 2019 Synthesis and Magnetism of Neutral, Linear Metallocene Complexes of Terbium(II) and Dysprosium(II). Journal of the American Chemical Society 141, 12967–12973. (doi:10.1021/jacs.9b05816)"
+2019_37,[Dy(Dtp)2][Al{OC(CF3)3}4],Metallocene,,Dy3+,Oblate,Kramers,100.0,2.0,2.0,1957222.cif,Proper,,,,,2019,2019,10.1021/jacs.9b11515,"Evans, P., Reta, D., Whitehead, G. F. S., Chilton, N. F. & Mills, D. P. 2019 Bis-Monophospholyl Dysprosium Cation Showing Magnetic Hysteresis at 48 K. Journal of the American Chemical Society 141, 19935–19940. (doi:10.1021/jacs.9b11515)"
+2019_38,[TbIr6(ppy)12(bpp)2(bppH)4](CF3SO3)·xH2O,TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,6.0,6.0,1873810.cif,Proper,Octahedron,0.064,-0.4,1.010008,2019,2019,10.1016/j.jmmm.2019.03.100,"Zeng, D., Fan, K., Wang, L.-P., Bao, S.-S., Ren, M. & Zheng, L.-M. 2019 Octahedral erbium and ytterbium ion encapsulated in phosphorescent iridium complexes showing field-induced magnetization relaxation. Journal of Magnetism and Magnetic Materials 484, 139–145. (doi:10.1016/j.jmmm.2019.03.100)"
+2019_38,[ErIr6(ppy)12(bpp)2(bppH)4](CF3SO3)·xH2O,TM near Ln,,Er3+,Prolate,Kramers,100.0,6.0,6.0,,Isostructural,,,,,2019,2019,10.1016/j.jmmm.2019.03.100,"Zeng, D., Fan, K., Wang, L.-P., Bao, S.-S., Ren, M. & Zheng, L.-M. 2019 Octahedral erbium and ytterbium ion encapsulated in phosphorescent iridium complexes showing field-induced magnetization relaxation. Journal of Magnetism and Magnetic Materials 484, 139–145. (doi:10.1016/j.jmmm.2019.03.100)"
+2019_38,[YbIr6(ppy)12(bpp)2(bppH)4](CF3SO3)·xH2O,TM near Ln,,Yb3+,Prolate,Kramers,100.0,6.0,6.0,,Isostructural,,,,,2019,2019,10.1016/j.jmmm.2019.03.100,"Zeng, D., Fan, K., Wang, L.-P., Bao, S.-S., Ren, M. & Zheng, L.-M. 2019 Octahedral erbium and ytterbium ion encapsulated in phosphorescent iridium complexes showing field-induced magnetization relaxation. Journal of Magnetism and Magnetic Materials 484, 139–145. (doi:10.1016/j.jmmm.2019.03.100)"
+2019_39,[DyL3(H2O)4]·5H2O,Other Families,100000.0,Dy3+,Oblate,Kramers,100.0,8.0,7.0,,,,,,,2019,2019,10.1016/j.jmmm.2019.165475,"Fang, Y., Xu, M.-X., Hui, Y.-C., Sun, H.-L., Yan, X. & Jiang, S.-D. 2019 Determination of the magnetic principal axes of a dysprosium complex with slow relaxation on a single crystal. Journal of Magnetism and Magnetic Materials 490, 165475. (doi:10.1016/j.jmmm.2019.165475)"
+2019_40,[(η9-C9H9)Er(η8-C8H8)],Metallocene,,Er3+,Prolate,Kramers,100.0,2.0,2.0,1894450.cif,Proper,,,,,2019,2019,10.1038/s41467-019-10976-6,"Münzfeld, L., Schoo, C., Bestgen, S., Moreno-Pineda, E., Köppe, R., Ruben, M. & Roesky, P. W. 2019 Synthesis, structures and magnetic properties of [(η9-C9H9)Ln(η8-C8H8)] super sandwich complexes. Nature Communications 10. (doi:10.1038/s41467-019-10976-6)"
+2019_41,[Tb(L)(CH3COCH3)],TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,7.0,2.0,7058138.cif,Proper,Others,4.108,,,2019,2019,10.1039/c8nj05777j,"Wen, H.-R., Zhang, J.-L., Liang, F.-Y., Yang, K., Liu, S.-J., Liao, J.-S. & Liu, C.-M. 2019 TbIII/3d–TbIII clusters derived from a 1,4,7-triazacyclononane-based hexadentate ligand with field-induced slow magnetic relaxation and oxygen-sensitive luminescence. New Journal of Chemistry 43, 4067–4074. (doi:10.1039/c8nj05777j)"
+2019_41,[Zn2Tb(L)2]ClO4,TM near Ln,,Tb3+,Oblate,Non-Kramers,100.0,6.0,4.0,7058139.cif,Proper,Others,16.115,,,2019,2019,10.1039/c8nj05777j,"Wen, H.-R., Zhang, J.-L., Liang, F.-Y., Yang, K., Liu, S.-J., Liao, J.-S. & Liu, C.-M. 2019 TbIII/3d–TbIII clusters derived from a 1,4,7-triazacyclononane-based hexadentate ligand with field-induced slow magnetic relaxation and oxygen-sensitive luminescence. New Journal of Chemistry 43, 4067–4074. (doi:10.1039/c8nj05777j)"
+2019_42,[Tb(HDTTA)3(CH3OH)3]n,Other Families,100000.0,Tb3+,Oblate,Non-Kramers,100.0,9.0,6.0,1940269.cif,Proper,Others,0.881,,,2019,2019,10.1039/c9ra06920h,"Han, M., Zhang, H., Wang, J., Feng, S. & Lu, L. 2019 Three chiral one-dimensional lanthanide–ditoluoyl-tartrate bifunctional polymers exhibiting luminescence and magnetic behaviors. RSC Advances 9, 32288–32295. (doi:10.1039/c9ra06920h)"
+2019_43,Na[Gd(4-HOpa)4(H2O)]∙2H2O,Other Families,0.0,Gd3+,Isotropic,Kramers,100.0,9.0,5.0,,Proper,,,,,2019,2019,10.1016/j.poly.2019.04.056,"Da Cunha, T. T., Barbosa, V. M. M., Oliveira, W. X. C., Pinheiro, C. B., Pedroso, E. F., Nunes, W. C. & Pereira, C. L. M. 2019 Slow magnetic relaxation in mononuclear gadolinium(III) and dysprosium(III) oxamato complexes. Polyhedron 169, 102–113. (doi:10.1016/j.poly.2019.04.056)"
+2019_43,Na[Dy(4-HOpa)4(H2O)]∙2H2O,Other Families,0.0,Dy3+,Oblate,Kramers,100.0,9.0,5.0,1840848.cif,Proper,Spherical capped square antiprism,0.36,1.4,0.965098,2019,2019,10.1016/j.poly.2019.04.056,"Da Cunha, T. T., Barbosa, V. M. M., Oliveira, W. X. C., Pinheiro, C. B., Pedroso, E. F., Nunes, W. C. & Pereira, C. L. M. 2019 Slow magnetic relaxation in mononuclear gadolinium(III) and dysprosium(III) oxamato complexes. Polyhedron 169, 102–113. (doi:10.1016/j.poly.2019.04.056)"
+2019_43,Na[Ho(4-HOpa)4(H2O)]∙2H2O,Other Families,0.0,Ho3+,Oblate,Non-Kramers,100.0,9.0,5.0,1840849.cif,Proper,,,,,2019,2019,10.1016/j.poly.2019.04.056,"Da Cunha, T. T., Barbosa, V. M. M., Oliveira, W. X. C., Pinheiro, C. B., Pedroso, E. F., Nunes, W. C. & Pereira, C. L. M. 2019 Slow magnetic relaxation in mononuclear gadolinium(III) and dysprosium(III) oxamato complexes. Polyhedron 169, 102–113. (doi:10.1016/j.poly.2019.04.056)"
+2019_44,[Tb(L)Cl3],Schiff Base,,Tb3+,Oblate,Non-Kramers,100.0,7.0,4.0,,Proper,,,,,2019,2019,10.1016/j.poly.2019.05.051,"Mayans, J., Sorace, L., Font-Bardia, M. & Escuer, A. 2019 Chiral mononuclear lanthanide complexes derived from chiral Schiff bases: Structural and magnetic studies. Polyhedron 170, 264–270. (doi:10.1016/j.poly.2019.05.051)"
+2019_44,[Dy(L)Cl3],Schiff Base,,Dy3+,Oblate,Kramers,100.0,7.0,4.0,,Isostructural,,,,,2019,2019,10.1016/j.poly.2019.05.051,"Mayans, J., Sorace, L., Font-Bardia, M. & Escuer, A. 2019 Chiral mononuclear lanthanide complexes derived from chiral Schiff bases: Structural and magnetic studies. Polyhedron 170, 264–270. (doi:10.1016/j.poly.2019.05.051)"
+2019_44,[Er(L)Cl3],Schiff Base,,Er3+,Prolate,Kramers,100.0,7.0,4.0,,Isostructural,,,,,2019,2019,10.1016/j.poly.2019.05.051,"Mayans, J., Sorace, L., Font-Bardia, M. & Escuer, A. 2019 Chiral mononuclear lanthanide complexes derived from chiral Schiff bases: Structural and magnetic studies. Polyhedron 170, 264–270. (doi:10.1016/j.poly.2019.05.051)"
+2019_44,[Yb(L)Cl3],Schiff Base,,Yb3+,Prolate,Kramers,100.0,7.0,4.0,,Isostructural,,,,,2019,2019,10.1016/j.poly.2019.05.051,"Mayans, J., Sorace, L., Font-Bardia, M. & Escuer, A. 2019 Chiral mononuclear lanthanide complexes derived from chiral Schiff bases: Structural and magnetic studies. Polyhedron 170, 264–270. (doi:10.1016/j.poly.2019.05.051)"
+2018_78,[Dy(h5-CpiPr5)(BH4)2(THF)],Other Families,100.0,Dy3+,Oblate,Kramers,100.0,8.0,4.0,,Proper,,,,,2018,2018,10.1126/science.aav0652,"Guo, F.-S., Day, B. M., Chen, Y.-C., Tong, M.-L., Mansikkamäki, A. & Layfield, R. A. 2018 Magnetic hysteresis up to 80 kelvin in a dysprosium metallocene single-molecule magnet. Science 362, 1400–1403. (doi:10.1126/science.aav0652)"
+2018_78,[(h5-CpiPr5)Dy(h5-Cp*)(BH4)],Other Families,100.0,Dy3+,Oblate,Kramers,100.0,4.0,3.0,,Proper,,,,,2018,2018,10.1126/science.aav0652,"Guo, F.-S., Day, B. M., Chen, Y.-C., Tong, M.-L., Mansikkamäki, A. & Layfield, R. A. 2018 Magnetic hysteresis up to 80 kelvin in a dysprosium metallocene single-molecule magnet. Science 362, 1400–1403. (doi:10.1126/science.aav0652)"
+2018_78,[(h5-Cp*)Dy(h5-CpiPr5)][B(C6F5)4],Metallocene,,Dy3+,Oblate,Kramers,100.0,2.0,2.0,,Proper,,,,,2018,2018,10.1126/science.aav0652,"Guo, F.-S., Day, B. M., Chen, Y.-C., Tong, M.-L., Mansikkamäki, A. & Layfield, R. A. 2018 Magnetic hysteresis up to 80 kelvin in a dysprosium metallocene single-molecule magnet. Science 362, 1400–1403. (doi:10.1126/science.aav0652)"
+2018_79,[Dy(CpiPr4H)2][B(C6F5)4],Metallocene,,Dy3+,Oblate,Kramers,100.0,2.0,2.0,,Proper,,,,,2018,2018,10.1039/c8sc03907k,"Randall McClain, K., Gould, C. A., Chakarawet, K., Teat, S. J., Groshens, T. J., Long, J. R. & Harvey, B. G. 2018 High-temperature magnetic blocking and magneto-structural correlations in a series of dysprosium(iii) metallocenium single-molecule magnets. Chemical Science 9, 8492–8503. (doi:10.1039/c8sc03907k)"
+2018_79,[Dy(CpiPr4Me)2][B(C6F5)4],Metallocene,,Dy3+,Oblate,Kramers,100.0,2.0,2.0,,Proper,,,,,2018,2018,10.1039/c8sc03907k,"Randall McClain, K., Gould, C. A., Chakarawet, K., Teat, S. J., Groshens, T. J., Long, J. R. & Harvey, B. G. 2018 High-temperature magnetic blocking and magneto-structural correlations in a series of dysprosium(iii) metallocenium single-molecule magnets. Chemical Science 9, 8492–8503. (doi:10.1039/c8sc03907k)"
+2018_79,[Dy(CpiPr4Et)2][B(C6F5)4],Metallocene,,Dy3+,Oblate,Kramers,100.0,2.0,2.0,,Proper,,,,,2018,2018,10.1039/c8sc03907k,"Randall McClain, K., Gould, C. A., Chakarawet, K., Teat, S. J., Groshens, T. J., Long, J. R. & Harvey, B. G. 2018 High-temperature magnetic blocking and magneto-structural correlations in a series of dysprosium(iii) metallocenium single-molecule magnets. Chemical Science 9, 8492–8503. (doi:10.1039/c8sc03907k)"
+2018_79,[Dy(CpiPr4iPr)2][B(C6F5)4],Metallocene,,Dy3+,Oblate,Kramers,100.0,2.0,2.0,,Proper,,,,,2018,2018,10.1039/c8sc03907k,"Randall McClain, K., Gould, C. A., Chakarawet, K., Teat, S. J., Groshens, T. J., Long, J. R. & Harvey, B. G. 2018 High-temperature magnetic blocking and magneto-structural correlations in a series of dysprosium(iii) metallocenium single-molecule magnets. Chemical Science 9, 8492–8503. (doi:10.1039/c8sc03907k)"