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+filepath=/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf,len=1438
+page_content='1  Spinel Cu-Mn-Cr Oxide Nanoparticle-Pigmented  Solar Selective Coatings Maintaining >94%  Efficiency at 750ºC  Can Xu, Xiaoxin Wang, and Jifeng Liu*  Thayer School of Engineering, Dartmouth College, 14 Engineering Drive, Hanover, New  Hampshire 03755, USA  Corresponding Author: Jifeng.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='Liu@dartmouth.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='edu  ABSTRACT  High-temperature concentrating solar power (CSP) system is capable of harvesting and storing  solar energy as heat towards cost-effective dispatchable solar electricity.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Solar selective coating is  a critical component to boost its efficiency by maximizing solar absorptance and minimizing  thermal emittance losses.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' However, maintaining a high solar-thermal conversion efficiency >90%  for long-term operation at ≥750ºC remains a significant challenge.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Herein, we report spray-coated  spinel Cu-Mn-Cr oxide nanoparticle-pigmented solar selective coatings on Inconel tube sections  maintaining ≥94% efficiency at 750ºC and ≥92.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5% at 800ºC under 1000x solar concentration after  60 simulated day-night thermal cycles in air, each cycle comprising 12h at 750ºC/800ºC and 12h  cooling to 25ºC.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The solar spectral selectivity is intrinsic to the band-to-band and d-d transitions  2  of non-stoichiometric spinel Cu-Mn-Cr oxide nanoparticles by balancing the lattice site inversion  of Cu2+ and Mn3+ on tetrahedral vs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' octahedral sites.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' This feature offers a large fabrication tolerance  in nanoparticle volume fraction and coating thickness, facilitating low-cost and scalable spray-  coated high-efficiency solar selective absorbers for high-temperature CSP systems.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Key Words: Concentrating solar power, Solar selective absorber, Spinel oxide nanoparticle;' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Ionic  site inversion;' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' d-d transition,  TOC GRAPHICS  14um  After60day-night cycles  13  11  between750Cand252C  9  6  UV-vis)  500μm  PigmentedNP  Siliconeresin  Coating  μm  um  Substra.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='e  400  500  300  400  300  200 100  200  100  Cu-Mn-Cr Oxide NPs, 750C Cycling  %  100  95  SpinelCu-Mn-Croxidepigmentnanoparticles(NPs)  90  ---SolarAbsorptance  85  .' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='-ThermalEmittance  80  Thermal Efficiency  75  @750, 1000x solar  (111)  70  concentration  d=0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='481nm  65  60  55  0  20  40  60  50nm  nm  # of simulated day/nights3  1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Introduction  Recent years have seen a rapid growth in solar energy, currently supplying 2.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='8% of electricity in  the U.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='S.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' as the third largest renewable source after wind and hydropower.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 1 Concentrating solar  power (CSP) system utilizes reflective mirrors (“collectors”) to concentrate solar irradiation and  heat up working fluids (e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='g.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' molten salts) to high temperatures.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 2 A great advantage compared to  photovoltaic (PV) system is that CSP is capable of storing the solar-thermal energy for >10 hours  so as to meet the peak hours of electricity consumption towards dispatchable solar electricity.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 3  Solar selective coating, a critical component to boost the solar-to-thermal energy conversion  efficiency (ηtherm) by maximizing solar spectral absorption and minimizing infrared (IR) thermal  emittance losses, can reduce the levelized cost of energy (LCOE) of CSP by >12% 4 for ηtherm>90%.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Further increasing ηtherm to 95% is projected to achieve >17% LCOE cost reduction, which strongly  supports the goal of achieving $0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='05/kWh solar electricity by 2030.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 3 Based on Carnot Theorem,  the operation temperature of Generation 3 CSP system is being increased to 750ºC with a solar  concentration of ~1000x to achieve >50% overall power cycle efficiency in solar electricity  production.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 5 Therefore, it is highly desirable to develop cost-effective and highly scalable solar  selective coatings that can maintain ηtherm ~95% at 750ºC in air.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  However, currently commercial solar coating products are unable to maintain ηtherm >90% at  operating temperatures >700ºC in air.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 6 The benchmark Pyromark 2500 coating suffers from a high  thermal emittance of εtherm~87% and pigment particle phase instability at 750°C, 7 limiting its ηtherm  to ~88% at 1000x solar concentration after operating at 750°C for 300 h.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 8,9 Various transition  metal oxide solar absorbers have been investigated, and some of them demonstrate excellent  thermal stability at 750°C, 10,11 yet the lack of spectral selectivity limits their maximal ηtherm to  ~91% at >700°C.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' While dielectric selective absorber coatings based on nitrides and oxides could  4  sustain high temperature in air and achieve some degree of solar selectivity, 12,13 the principles of  their optical design requires relatively expensive vacuum deposition for stringent thickness control.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Our previous optical design 14 based on Lorentz-Mie scattering theory and Four-Flux model has  found it feasible to achieve good solar selectivity in nanoparticle (NP)-pigmented silicone coatings  for NPs with diameters <40 nm and steep optical transition near the optimal cut-off wavelength  (λcut) between the solar spectrum and the thermal radiation spectrum.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' For Generation 3 CSP  systems, λcut=2475 nm for 1000x solar concentration at 750ºC.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Spinel (AB2O4) NPs with intrinsic  high-temperature thermal stability is a promising candidate since their manifold compositions and  cationic valences enable a high degree of freedom to tailor the optical properties.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Previously, we  have demonstrated MnFe2O4 NP-pigmented solar selective coatings maintaining ηtherm ~89%  under 1000x solar concentration after serving at 750ºC in air for 700h.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 15 To further enhance the  performance, in this Paper we demonstrate spinel Cu-Mn-Cr oxide NP-pigmented silicone solar  selective coatings on Inconel tube sections with a higher solar absorbance αsolar=98.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='2% and a  notably reduced thermal emittance εtherm=59.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='4% compared to benchmark Pyromark 2500  (αsolar=96.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='0%;' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' εtherm=89.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5%).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' To the best of our knowledge, this performance leads to a record-  high ηtherm=94.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5\uf0b10.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='2% for 1000x solar concentration at 750ºC in air.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' These coatings also maintain  ηtherm≥94% at 750ºC and ηtherm ≥92.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5% at 800ºC after 60 simulated day (750ºC/800 ºC 12h) and  night (25 ºC 12h) cycles in air without degradation in surface morphology or phase stability.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The  solar spectral selectivity is intrinsic to the band-to-band and d-d transitions of non-stoichiometric  spinel Cu-Mn-Cr oxide NPs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' This feature offers a large fabrication tolerance in nanoparticle  volume fraction and coating thickness, greatly facilitating high-efficiency solar selective absorbers  layers via low-cost and highly scalable spray coating for high-temperature CSP systems.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  5  2.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Results and Discussions  Figure 1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' (a) XRD pattern of the synthesized spinel Cu-Mn-Cr oxide NPs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' A small amount of  Mn2O3 is also identified.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' (b) shows a TEM image of the NPs, and (c) zooms into one of the NPs  in the red box shown in (b).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Structural and Compositional Analyses of Spinel Cu-Mn-Cr Oxide NPs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' We utilized co-  precipitation method to synthesize spinel oxide NPs with Cu:Mn:Cr=1:3:1 from  nitrate salt  precursors (see Supporting Information Section 1).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Such a nonstoichiometric ratio is selected to  optimize the solar selective absorption by engineering the valences of cations and cationic site  distribution to our advantage, as will be discussed later.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' These NPs are further annealed at 550°C  to enhance the crystallinity.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Energy dispersive X-ray spectroscopy (EDS) analysis shows  Cu:Mn:Cr =1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='00:3.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='33:1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='17 in the synthesized NPs, close to the targeted ratio.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Figure 1a shows the  X-ray diffraction (XRD) pattern of the synthesized NPs loaded on Si(100) substrate.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Most of the  peaks are attributed to spinel structure with a lattice constant of  a=8.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='307 Å, between those of cubic  CuMn2O4 (a=8.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='331 Å) and CuCr2O4 (a=8.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='270 Å) 16 as expected for spinel Cu-Mn-Cr oxide.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' A  couple of small peaks from Mn2O3 are also observed, consistent with the phase diagram reported  for Cu-Mn spinel oxides with Cu:Mn <1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 17 Based on XRD relative intensity ratio (RIR) analysis,  the molar ratio of Cu-Mn-Cr spinel oxide to Mn2O3 is 1:(0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='142 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='018).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Figures 1b and 1c further  (a)  Spinel  (b)  (c)  (311)  Mn203  Intensity  si (400)  (511)  (440)  (111)  (220)  (400)  (422)  (533)  d=0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='481nm  (111)  (222)  50nm  nm  20  30  40  50  60  70  80  2 theta (degree)6  show transmission electron microscopy (TEM) images of the NPs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The average NP diameter is  31\uf0b13.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='6 nm (see the NP size histogram in Supporting Information Figure S1).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The interplanar  spacing of {111} planes is 4.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='81 Å in the high-resolution TEM image in Figure 1c, fully consistent  with the XRD results.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Furthermore, X-ray photoelectron spectroscopy (XPS) analyses provide the valences and the  corresponding percentages of the cations, as summarized in Table 1 (see Supporting Information  Section 3 for data analyses).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Notably, the Cu+:Cu2+ ratio is as high as 4:1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' It has been reported that  Cu+ on tetrahedral A sites in spinel oxides can be stabilized by Cu2+ and Mn4+ on octahedral B  sites 17.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' According to ligand field theory (LFT) and the octahedral site preference energy (OSPE)  18,19 , Cu+(3d10) and Mn2+(3d5) prefer tetrahedral sites while Cu2+, Mn3+ and Cr3+/Mn4+ are  sequentially more energetically favored to take the octahedral sites.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Therefore, considering the  cation valance distribution, OSPE, and overall charge balance, the detailed formula can be written  as (Cu+0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='48Mn2+0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='52)Td,A(Cu2+0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='12Mn2+0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='07Mn3+0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='65Mn4+0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='46Cr3+0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='70)oh,BO3.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='89 assuming OSPE fully  applies.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Here, the subscripts “Td,A” and “Oh,B” stand for tetrahedral A site and octahedral B site,  respectively.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Characteristic vibration modes corresponding to octahedral and tetrahedral sites in  spinel structures are also observed in Fourier transform IR spectroscopy (FTIR) and detailed in the  Supporting Information (Figure S3).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' On the other hand, even though OSPE is highly effective in  predicting cation lattice sites, we note that ~30% site inversion of Mn3+ from octahedral to  tetrahedral sites has been reported in closely related CuMn2O4 spinel structures in order to dilute  the Jahn-Teller effect.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 20 Such Mn3+ site inversion can lead to strong and broad absorption bands  in the near infrared (NIR) regimes at 1000-2000 nm wavelength.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 21,22 Furthermore, the deficiency  of oxygen compared to stoichiometric AB2O4 indicates oxygen vacancies, likely on the surface of  the NPs as has been reported in other spinel NP systems.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 23 Oxygen vacancies are known to interact  7  with transition metal cations and further enhanced the NIR absorption.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 24 These influences on  optical properties will be discussed next.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Table 1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Cu:Mn:Cr atomic ratios and corresponding cationic valences/percentages in the synthesized NPs  comprising both spinel Cu-Mn-Cr oxide and Mn2O3 at a ratio of 1:0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='142  Atomic Species  Atomic Ratio  Ionic Valence/Molar Percentage  Cu  1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='00  Cu+: 80%  Cu2+: 20%  Mn  3.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='33  Mn2+: 30%  Mn3+: 47%  Mn4+: 23%  Cr  1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='17  Cr3+:100%  Figure 2.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' (a) Indirect bandgap Tauc plot of the spinel Cu-Mn-Cr oxide NPs (b) Absorption  spectrum beyond the indirect bandgap and the corresponding Gaussian peaks fitting.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The two  (a)  (b)  103  x104  Indirect gap absorption subtracted  IndirectBandgapTaucPlot  Overall fitting  Individual Gaussian peakfitting  8.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='0  α(cm")  6  0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='95eV  4  1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='95,eV  0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5  2  0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='0-  fo  0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='51.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='01.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='52.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='02.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='53.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='03.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5  4.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='0  0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5  1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='0  1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5  2.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='0  2.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5  3.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='0  Photon Energy (eV)  Photon Energy (eV)  (c)  (d)  SolarAbsorptanceContours  Thermal EfficiencyContours  15  15  αsolar (%)  Thickness (um)  Ntherm (%)  92.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='83  94  92  95  93.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='12  90  98.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='67  .' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='34  88  10  10  90  86  93.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='41  9o.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Coating  28  84  93.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='70  98.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='02  85  7397.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  93.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='99  82  97.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='70  5  5  5  10  15  5  10  15  NPVolumeConcentration(%)  NPVolumeConcentration(%)8  absorption bands peaked at 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='95 eV and 1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='95 eV are mainly contributed by Cu2+ and Mn3+ d-d  transitions on tetrahedral and octahedral sites, respectively.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' (c) and (d) show theoretical modeling  of solar absorptance and thermal efficiency contour maps as a function of NP volume fraction and  coating thickness when dispersed in silicone matrix.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Optical Properties.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Critical to the optical performance is the absorption spectrum of Cu-Mn-Cr  oxide NPs, as shown in the Tauc plot in Figure 2a.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' It reveals an indirect gap of 1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='68 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='04 eV.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Remarkably, the absorption beyond the indirect gap is extended all the way to 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5 eV with  absorption coefficients >104 cm-1 to cover the entire solar spectrum.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' To single out the absorption  spectrum beyond the indirect bandgap, we subtract the indirect bandgap absorption (as derived  from the Tauc plot) from Figure 2a and show the result in Figure 2b.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Two broad Gaussian  absorption bands peaked at 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='95 and 1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='95 eV are clearly identified, typical of d-d transitions  between the split d levels of transition metal ions induced by tetrahedral or octahedral ligand  (crystal) field.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 21 The energy ratio of these two peaks is 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='48, very close to the expected ratio of  4/9 for tetrahedral site vs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' octahedral site d-d transition energies in spinel structures.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 25 Therefore,  the 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='95 eV and 1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='95 eV absorption bands are attributed to tetrahedral and octahedral site d-d  transitions, respectively.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Note that in most of these d-d transitions, the excited electrons still remain  localized to the transition metal ion instead of becoming free electrons in the conduction band,  therefore the transition energy is lower than the bandgap.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='95 eV peak is between the  tetrahedral site Cu2+ absorption band peaked at ~0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='8 eV 25–27 and that of Mn3+ peaked at ~1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='2 eV,  21,22 suggesting both types of ions on tetrahedral sites have contributed to this NIR d-d absorption  band.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Typically, the oscillation strength of tetrahedral d-d transition is stronger than their  octahedral counterparts due to broken inversion symmetry that enables various spin-forbidden  transitions.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='21,25 In our case, on the other hand, the octahedral d-d absorption at 1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='95 eV is ~2x  9  stronger than tetrahedral absorption at 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='95 eV.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' This result indicates that a relatively small fraction  of Cu2+ and Mn3+ cations occupy tetrahedral sites compared to octahedral sites, consistent with the  prediction of OSPE discussed earlier and similar to the case of CuMn2O4 in terms of a small  fraction of site inversion.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='20  Such a distribution is beneficial to solar selectivity, where a decrease  in absorption beyond the optimal cut-off wavelength of 2475 nm (hv<0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5 eV) is needed, as  mentioned earlier.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Since Cr3+ and Mn4+ have the strongest tendency to compete for octahedral sites  based on OSPE, tuning their percentages may further optimize Cu2+ and Mn3+ site inversion for  better solar selectivity.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' In addition, oxygen vacancies, as identified in our previous analyses,  further lower the ligand symmetry to enhance the oscillation strength of d-d optical absorption  especially in the NIR solar spectral regime at 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5-1 eV, as has been reported in spinel ZnFe2O4  system.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='28 Therefore, these two factors work synergistically to enhance the overall solar selectivity.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Optical Modeling of Spinel Cu-Mn-Cr Oxide NP-Pigmented Solar Selective Coatings.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Based  on the absorption spectra of the spinel Cu-Mn-Cr oxide NPs, we further modelled the spectrally  integrated solar absorptance αSolar and the thermal efficiency ηtherm for 1000x solar concentration  at 750ºC using Lorentz-Mie scattering theory and four-flux radiative model, as detailed in Refs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  14 and 15.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Figure 2c and d show αSolar and ηtherm contour maps, respectively, as a function of NP  volume fraction and coating thickness when dispersed in silicone matrix for the solar absorber  coating.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The intrinsic solar spectral selectivity of the NPs and their nanoscale diameters (d=31\uf0b13.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='6  nm) lead to a large tolerance in coating thickness and NP volume fraction, such that αSolar>97.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='4%  and ηtherm>93.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='6% can be achieved even if the NP volume fraction varies between 7-13 vol.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='% and  the coating thickness varies between 6-15 μm.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Such a high fabrication tolerance greatly facilitates  low-cost and highly scalable spray-coated solar selective absorbers.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The green stars and red error  bars in Figures 2c and d reflect the experimentally measured coating thickness and NP volume  10  fraction variations in our spray-coated Inconel tube section samples.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' From the modeling, we expect  αSolar\uf0bb98% and ηtherm\uf0bb94%.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='As will be detailed next, these theoretically modelled values indeed  agree very well with the experimental results.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Characterization and Optical Performance of the Spray-Coated Solar Selective Coating.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Figure 3a shows a photograph of an Inconel 625 tube section (outer diameter=76 mm) coated with  the spinel Cu-Mn-Cr oxide NP-pigmented silicone solar selective absorber and annealed in air at  750ºC for 24h.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Detailed coating procedure is discussed in Section 1 of the Supporting Information.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Figure 3b shows a digital optical microscopy image of the surface profile, indicating a surface  undulation of ~6 μm with sporadic humps reaching >10 μm in height.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' A focus ion beam (FIB)  cross-sectional cutting is made on a relatively flat and thin region, revealing an average thickness  of 5.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5 μm as shown in Figure 3c.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Using this flat region as a calibration and the surface profile in  Figure 3b, we determined that overall, the coating thickness is 8.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5 3 μm.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The volume fraction of  the spinel Cu-Mn-Cr oxide NPs is estimated to be 10 3 vol.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='%, as detailed in Section 5 of the  Supporting Information.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' These parameters allow us to model the expected performance of the  coating, as shown in Figures 2c and 2d.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The XRD data in Figure 3d shows that the spinel structure  is well maintained and the crystallinity gets better (narrower diffraction peaks) after 750ºC  annealing for 24h in air.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Remarkably, Figure 3e and f demonstrate that the new spinel Cu-Mn-Cr oxide NP-pigmented  solar selective coating improves the solar absorptance αSolar from 96.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='0% to 98.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='2% compared to  benchmark Pyromark 2500, while simultaneously the thermal emittance εtherm is drastically  reduced from 89.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5% to 59.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='4%.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Correspondingly, ηtherm is notably increased from 90.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='4\uf0b10.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='3% to  94.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5\uf0b10.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='2%.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' As will be further discussed in Table 2, to the best of our knowledge, so far this is the  11  highest optical-to-thermal conversion efficiency for air-stable solar selective coatings operating at  750ºC.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Figure 3.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' (a) A photograph of an Inconel 625 tube section (outer diameter=76 mm) coated with  spinel Cu-Mn-Cr oxide NP-pigmented silicone solar selective absorber layer.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' (b) An optical  topography map of the solar selective coating, including a 3D view and a top view in the inset.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' (c)  FIB cross-section of the coating in a relatively flat and thin region in (b) for thickness calibration.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  (d) XRD pattern of the coated sample after annealing for 24 h at 750ºC in air compared to that of  the as-synthesized particles.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' (e) and (f) show solar absorptance and thermal emittance spectra of  the Cu-Mn-Cr oxide NP-pigmented silicone solar selective coating compared to benchmark  Pyromark 2500.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Endurance Testing.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' We further performed extensive thermal cycling for endurance testing of  these high efficiency solar selective coatings.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Each simulated day/night thermal cycle includes 12h  annealing at 750ºC or 800ºC and 12h cooling to 25ºC.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Here thermal cycles at 800ºC (i.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='e.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=',' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 50ºC  (a)  (b)  (c)  11  Pt  6  Solar coating  4  200μm  Cr,' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='InconelSubstrate  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='10cm  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='300  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='400  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='500  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='400  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='300200100  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='200  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='10μm  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='100  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='(d)  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='(e)  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='(f) 100  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='750°C24h  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='Spinel  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='100  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='as-synthesized  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='Mn203  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='(%)  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='(311)  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='Inconel625  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='80  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='Pyromark2500  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='80  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='Thermal  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='larAbsorptance  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='Cu-Mn-Cr oxide  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='Emittance  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='EmittanceLoss  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='Intensity  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='(220)  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='60  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='100  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='60  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='+（111)  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='(222)  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='(440)  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='(422)  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='98  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='小  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='15  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='SolarAbsorptance  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='40  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='96  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='40  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='Thermal  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='(400)  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='20  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='92  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='20  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='Pyromark2500  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='Sol  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='Cu-Mn-Croxide  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='901  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='500  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='1000  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='1500  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='2000  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='2500  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='20  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content='1000  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='1500  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='2000  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='2500  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='3000  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='6000  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='9000  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='12000  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='2 theta (degree)  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='Wavelength(nm)  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='Wavelength(nm)12  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='higher than the working temperature) are conducted to further confirm thermal stability and to  ' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='investigate possible degradation mechanisms at an accelerated rate.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Solar coatings on Inconel 625  tube sections (with outer diameter=76 mm as shown in Figure 3) are annealed for up to 60  simulated day/night cycles in air.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Comparing the surface morphology from scanning electron  microscopy (SEM) images shown in Figures 4a-c, we find no deterioration in coating integrity or  appreciable changes in morphology after 60 cycles between 750ºC/800ºC and 25ºC.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The  micropores on the surface of the samples help to accommodate volume changes upon thermal  cycling, thereby stabilizing the coating against thermal stress.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Such surface texture also helps to  reduce surface reflectance and enhance solar absorption, similar to the case of PV cells.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' XRD  analyses further show that the spinel Cu-Mn-Cr oxide NPs are thermodynamically stable upon  thermal cycling (see Section 6 of the Supporting Information).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Figures 4d-f show the evolution of  solar absorptance spectra, thermal emittance spectra, and spectrally integrated solar  absorptance/thermal emittance/thermal efficiency vs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' the number of thermal cycles between 750ºC  and 25ºC.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The solar absorptance decreases only very slightly after 60 thermal cycles between  750ºC and 25ºC, while the thermal emittance fluctuates around 60% during the cycling,  maintaining a record-high thermal efficiency ηtherm>94% during the entire thermal cycles.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Similar  data shown in Figures 4g-i indicate a more noticeable decrease in solar absorptance when the high  temperature cycles are increased to 800ºC.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Even so, a high ηtherm=92.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='8\uf0b10.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='3% is still maintained  after 60 thermal cycles between 800ºC and 25ºC.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The increasingly wavy solar absorption spectra  upon 800ºC/25ºC thermal cycling with reduced solar absorptance closely resemble the behavior  of CuCr2O4 NP-pigmented coatings (intentionally synthesized for comparison;' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' see Section 7 of  Supporting Information) as well as previous literature on CuCr2O4 due to Cr3+ d-d absorption bands.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  29 In fact, these peaks and valleys blueshift towards those of CuCr2O4 after more cycles.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' This result  13  suggests Cr diffusion and substitution into the Cu-Mn-Cr spinel oxide NPs from the Inconel  substrate as the key mechanism for the slight solar absorptance degradation upon 800ºC/25ºC  thermal cycling.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' This is indeed confirmed by detailed cross-sectional EDS mapping before and  after the thermal cycling, as detailed in Section 7 of the Supporting Information.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Therefore,  limiting Cr diffusion into the coating could further improve the endurance of the solar selective  coating.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' A possible approach is to pre-oxidize the Inconel substrate to form a Cr2O3 layer first  before spray-coating, which has proved to be an effective approach to address the Cr diffusion  issue in our previous work.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 15  Figure 4.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' SEM surface morphology of the coatings on Inconel 625 tube sections (76 mm outer  diameter) after (a) 750ºC 24h annealing;' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' (b) 750ºC 24h annealing plus 60 simulated day-night  750°c.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='24h  500um  After60 cyclesbetween  500μm  After60cycles between  500um  750°C（12h）/25°C(12h）  800°c（12h)/25°c（12h）  Opticalperformanceafter750°C/25°cThermal Cycling  (d)  [e)100  100  24h  Absorptance (%)  80  Cycle10  80  90.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  cycle 30  (%)  SolarAbsorptance  cycle60  Thermal Emittance  60  66  Emittance  60  80.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Thermal Efficiency  86  40  40  70.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  97  24h  20  96  20  cycle10  60  cycle30  95  500  1000  1500  2000  cycle60  2500  0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  50  500  1000  1500  2000  2500  3000  6000  9000  12000  10  20  30  40  50  60  Wavelength (nm)  Wavelength (nm)  #of Simulated Day-Night Cycles  Optical performance after 800°C/25°C Thermal Cycling  (g) 100  (h) 100  (0) 100  %  24h  Absorptance (%)  80  cycle 10  80  90-  cycle30  (%)  Solar Absorptance  cycle 60  Thermal Emittance  60  Emittance  100  60  80.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Thermal Efficiency  98  40  40  70  96  24h  20  94  20  cycle10  60-  cycle 30  92  500  1000  1500  2000  2500  cycle60  0-  50.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  500  1000  1500  2000  2500  3000  6000  9000  12000  0  10  20  30  40  50  60  Wavelength(nm)  Wavelength (nm)  #of Simulated Day-Night Cycles14  cycles between 750 ºC and 25 ºC;' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' (c) 750ºC 24h annealing plus 60 simulated day-night cycles  between 800 ºC and 25 ºC.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' (d)-(f) show the evolution of solar absorptance spectra, thermal  emittance spectra, and spectrally integrated solar absorptance/thermal emittance/thermal  efficiency vs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' the number of thermal cycles between 750ºC and 25ºC.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' (g)-(i) show similar data for  thermal cycles between 800ºC and 25ºC  Table 2 compares the efficiency and endurance of our coating with some recent work.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Most of the  previous solar coatings lack spectral selectivity with a thermal emittance ~90%, limiting their  thermal efficiency to ηtherm~90.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5%.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' We have notably improved ηtherm to >94% by engineering and  balancing the intrinsic NIR vs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' visible d-d absorption bands of Cu2+ and Mn3+ on tetrahedral vs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  octahedral sites of spinel structure.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The thermal emittance is drastically reduced to ~60% while a  high solar absorptance of ~98% is maintained.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' To the best of our knowledge, this is the highest  efficiency demonstrated and maintained so far for 750ºC endurance testing in air.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Optimizing the  extent of lattice site inversion of Cu2+ and Mn3+ on tetrahedral vs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' octahedral sites by fine-tuning  Cr3+ and Mn4+ percentages may further improve the spectral selectivity towards ηtherm>95%.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The  intrinsic solar spectral selectivity of the spinel Cu-Mn-Cr oxide NPs also enables an excellent  fabrication margin for cost-effective, highly scalable spray coating, as preliminary demonstrated  on a 48-inch-long tube shown in Figure S8 of the Supporting Information.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Table 2 High-temperature solar selective coatings with reported endurance test  Material System  Substrate  Fabrication Method  ηstart  ηend  T (℃)  Endurance in  Air (h/℃)  Refs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Cu0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='15Co2.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='84O4-SPB-SiO2  Inconel 625  Spray Coating  0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='904  0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='903  750  1000/750  Ref.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='30  Cu1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5Mn1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5O4-SPB-SiO2  Inconel 625  Spray Coating  0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='909  0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='905  750  1000/750  Ref.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='30  Porous Cu0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5Cr1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='1Mn1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='4O4-SiO2  Haynes 230  Spray Coating  0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='903  0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='902  800  2000/800  Ref.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='11  15  Cu0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='86Cr0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='14Mn1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5Fe0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5O4-SiO2  Inconel 617  Spray Coating  ≤ 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='917  ≤ 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='894  750  1300/800  Ref.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='31  TiN/AlCrSiO(two nano-multilayers)  /AlCrSiO(amorphous)  SS  Cathode Arc Ion  Plating  ≤ 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='908  ≤ 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='867  750  200/700  Ref.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='32  Spinel Cu-Mn-Cr oxide NP-silicone  Inconel 625  Spray Coating  0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='945  0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='942  750  60 thermal  cycles  750ºC/25 ºC  This  work-  0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='937  0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='928  800  60 thermal  cycles  800ºC/25 ºC  This  work-  ηstart: efficiency as deposited;' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' ηend: efficiency after annealing;' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  T: temperature at which thermal efficiency is evaluated.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Note that Refs.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 31 and 32 only reported thermal emittance at 80ºC instead of high  temperatures >700ºC.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' We therefore estimated the upper limit of the thermal efficiency at high  temperatures in these cases using 80ºC thermal emittance values, considering thermal emittance  typically increases at higher temperatures.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  3.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Conclusions  In conclusion, we demonstrate spray-coated spinel Cu-Mn-Cr oxide NP-pigmented solar  selective coating that maintains ηtherm >94% upon 60 simulated day-night cycles between 750ºC  and 25ºC in air.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The spectral selectivity is intrinsic to the band-to-band and d-d transitions of  these non-stoichiometric spinel NPs, where Cu2+ and Mn3+ on tetrahedral sites (through spinel  site inversion) contribute to the NIR absorption band to cover the entire solar spectrum up to  2500 nm wavelength.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' This feature offers a large fabrication tolerance in NP volume fraction and  coating thickness, greatly facilitating high-efficiency, high-temperature solar selective absorbers  layers via low-cost and highly scalable spray coating for Generation 3 high-temperature CSP  systems.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  16  ASSOCIATED CONTENT  Supporting Information includes experimental methods, nanoparticle size (diameter) histogram,  XPS data analyses, FTIR data analyses, volume fraction determination, XRD analyses during  thermal endurance tests, optical spectra and EDS mapping for interdiffusion investigation, and  solar selective coating on a 48-inch-long tube.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  AUTHOR INFORMATION  Corresponding Author  Jifeng Liu − Thayer School of Engineering, Dartmouth College, 14 Engineering Drive, Hanover,  New Hampshire 03755, United States;' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Email: jifeng.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='liu@dartmouth.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='edu  ORCID: 0000-0003-4379-2928  Authors  Can Xu − Thayer School of Engineering, Dartmouth College, 14 Engineering Drive, Hanover,  New Hampshire 03755, United States;' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' https://orcid.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='org/0000-0001-5306-5367;' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Xiaoxin Wang − Thayer School of Engineering, Dartmouth College, 14 Engineering Drive,  Hanover, New Hampshire 03755, United States;' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Notes  The authors declare no competing financial interest.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  ACKNOWLEDGMENTS  This project is funded by U.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='S.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Department of Energy, Solar Energy Technologies Office, under  the award number DE-EE-0008530.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' We would like to thank Dr.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Maxime J.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Guinel at Dartmouth  17  College and Dr.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Jules Gardener at Harvard University for their support with electron microscopy  analyses, and Dr.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Min Li at Yale University for support with XPS.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  REFERENCES  (1)  EIA.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' What is U.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='S.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' electricity generation by energy source?' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  https://www.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content='  (2)  Jacobson, M.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Z.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Delucchi, M.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' A.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Providing All Global Energy with Wind, Water, and  Solar Power, Part I: Technologies, Energy Resources, Quantities and Areas of  Infrastructure, and Materials.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Energy Policy 2011, 39 (3), 1154–1169.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content='2010.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content='  (3)  Murphy, C.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=' Sun, Y.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Cole, W.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Maclaurin, G.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=' Turchi, C.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Mehos, M.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Murphy, C.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Sun,  Y.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Cole, W.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Turchi, C.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Mehos, M.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The Potential Role of Concentrating  Solar Power within the Context of DOE’s 2030 Solar Cost Targets;' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Golden, Colorado,  2019.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  (4)  Boubault, A.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Ho, C.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' K.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Hall, A.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Lambert, T.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' N.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Ambrosini, A.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Levelized Cost of  Energy (LCOE) Metric to Characterize Solar Absorber Coatings for the CSP Industry.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Renew.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Energy 2016, 85, 472–483.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' https://doi.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='org/10.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='1016/j.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='renene.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='2015.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='06.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='059.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  (5)  Mehos, M.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Turchi, C.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Vidal, J.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Wagner, M.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Ma, Z.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Ho, C.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Kolb, W.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Andraka, C.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Kruizenga, A.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Concentrating Solar Power Gen3 Demonstration Roadmap;' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Golden,  Colorado, 2017.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' https://doi.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='org/10.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content='  18  (6)  Suman, S.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Khan, M.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=' Pathak, M.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Performance Enhancement of Solar Collectors - A  Review.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Renew.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Sustain.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Energy Rev.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 2015, 49, 192–210.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  https://doi.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='org/10.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='1016/j.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='rser.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='2015.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='04.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='087.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  (7)  Ho, C.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' K.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Ambrosini, A.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Bencomo, M.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Hall, A.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=' N.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=' R.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=' In the ASME  2012 6th International Conference on Energy Sustainability;' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=' N.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Jin, S.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=' Sol.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Cells 2015, 134, 417–424.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  https://doi.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=' B.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Chen, R.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Optical Properties and Thermal Stability of Cu Spinel  Oxide Nanoparticle Solar Absorber Coatings.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=' Cells 2019, 195  (January), 81–88.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=' 2019, 2 (1), 882–888.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=' E.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=' Byun, J.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=' Sol.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Cells  2018, 182 (March), 321–330.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content='  (31)  Noč, L.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=' Sol.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Cells 2019, 200  (April).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' https://doi.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content='  (32)  Yang, D.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Zhao, X.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Liu, Y.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Li, J.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Liu, H.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Zhang, J.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Guo, J.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Chen, Y.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=';' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Yang, B.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Enhanced Thermal Stability of Solar Selective Absorber Based on Nano-  Multilayered AlCrSiO Films.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Sol.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Energy Mater.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Sol.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Cells 2020, 207 (December 2019),  110331.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' https://doi.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='org/10.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='1016/j.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='solmat.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='2019.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='110331.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  1  Supporting Information  Spinel Cu-Mn-Cr Oxide Nanoparticle-Pigmented  Solar Selective Coatings Maintaining >94%  Efficiency at 750ºC  Can Xu, Xiaoxin Wang, and Jifeng Liu*  Thayer School of Engineering, Dartmouth College, 14 Engineering Drive, Hanover, New  Hampshire 03755, USA  Corresponding Author: Jifeng.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='Liu@dartmouth.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='edu  1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Experimental Methods  Synthesis.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' To obtain Cu, Mn and Cr oxide nanoparticle precursors, copper nitrate  (Cu(NO3)2·3H2O, Fisher Scientific, C99.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='9), manganese nitrate (Mn(NO3)2·4H2O, Sigma-Aldrich,  C99.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5) and chromium nitrate (Cr(NO3)3·9H2O, Sigma-Aldrich, C99.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='8), were dissolved in  deionized (DI) water at a molar ratio of 1:3:1 at room temperature with an initial pH value between  2 and 3.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The aqueous solution was under vigorous magnetic stirring for homogeneity and an excess  amount of appropriate base solution, sodium hydroxide (NaOH(aq), 50%, Sigma-Aldrich, dilute  2  to 10M) as we selected, was steadily added dropwise for precipitation until the pH of the solution  was adjusted to around 12 for a full precipitation.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The stirring was kept for 1h after the  precipitation.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The precipitated material was rinsed 5 times and then dried at 120 ºC overnight.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  After a rough grinding step, it was further calcined at 550°C for 5h and finally ground into fine  powders.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Solar Selective Coating Fabrication.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' To obtain spraying precursors, 4 wt.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='% synthesized  nanoparticles were well dispersed in xylene diluted silicone resin (BLUESIL RES 6406XM) with  a ratio of 1:10 for an appropriate viscosity.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The precursors were put in an ultrasonic bath for 30  min and then sprayed onto Inconel 625 substrate on the hot plate with a surface temperature of  about 180 ºC.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The sample was settled on the hotplate for 5 min and then cooled down to room  temperature.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Subsequently, the sample was put into a muffle furnace (Thermo scientific) for the  following heat treatment.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The sample was first heated under 250 ºC for 2h and then ramped up to  750 ºC at a rate of 9.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='1C/min.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' After dwelling for 24h and cooling back to room temperature, the  nanoparticle-pigmented silicone solar selective coating was formed.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Thermal test.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' A total of 60 simulated day-night thermal cycles (total annealing time of 720h) were  conducted for stability tests at 750 ºC and 800 ºC, respectively.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Each separate cycle consisted of  10 days.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' In each day, the sample was heated up to the target temperature at a rate of 9.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='1C/min and  dwelled for 12h.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Then the sample was cooled down to room temperature until the start of the next  day.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Characterization.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' XRD patterns were recorded on a Rigaku 007 X-ray Diffractometer (Cu Kα1  line, λ = 1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='54059 Å) operating at 40 kV/300 mA and in a 2theta angular range of 10–90 degree  with a velocity of 2 degree/min and a step size of 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='02 degree.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Chemical composition was  3  determined by X-ray Photoelectron Spectroscopy (XPS, PHI VersaProbe II, from West Campus  Materials Characterization Core at Yale University) and Energy dispersive spectroscopy (EDS,  EDAX Si (Li) detector with Genesis software).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Scanning electron images were obtained by using  a TESCAN SEM operating at 20 kV in secondary electron (SE) mode and a FEI Helios 5CX  DualBeam SEM equipped with FIB was utilized for specimen preparation for cross section views.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Tecnai F20 (200 keV) TEM was utilized to collect transmission electron images and SAED  patterns.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Elemental distribution was measured via JEOL 2010 FEG - TEM/STEM equipped with  an EDS detector (from Center for Nanoscale Systems at Harvard University).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Vibrational signals  of bonding as well as reflectance in the mid infrared (MIR) region (λ=2.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5 ~15 μm) were carried  out by a Jasco 4100 Fourier transformation IR (FTIR) spectrometer equipped with a Pike IR  integrating sphere in the range from 400 to 4000 cm-1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Jasco V-570 ultraviolet/visible/near infrared  (UV/Vis/NIR) spectrometer equipped with a Jasco ISN-470 integrating sphere was used to  characterize optical performance in the ultraviolet, visible and infrared regime, ranging from 200  nm to 2500 nm.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The visualization of the surface roughness was obtained via Keyence VHX-700  Digital Microscope.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  The solar-to-thermal energy conversion efficiency of the solar selective coatings is given by  𝜂𝑡ℎ𝑒𝑟𝑚 = 𝐹𝑂𝑀 =  ∫(1−𝑅(𝜆))𝐼(𝜆)𝑑𝜆−1  𝐶[∫(1−𝑅(𝜆))𝐵(𝜆,𝑇)𝑑𝜆]  ∫ 𝐼(𝜆)𝑑𝜆  = 𝛼𝑠𝑜𝑙𝑎𝑟 −  𝜀𝑡ℎ𝑒𝑟𝑚𝜎𝑇4  𝐶𝐼𝑠𝑜𝑙𝑎𝑟  ,      (1)  where 𝑅(𝜆) is the spectral reflectance of the solar selective coating at wavelength 𝜆 , 𝐼(𝜆)  represents the AM 1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5 solar spectral irradiance per square meter at wavelength 𝜆,  𝐼𝑠𝑜𝑙𝑎𝑟 =  1000 𝑊/𝑚2 is the solar power density integrated from the spectral radiance 𝐼(𝜆), 𝐵(𝜆, 𝑇) is the  spectral blackbody thermal emission at 𝜆 and 𝑇,  𝛼solar is the overall spectrally normalized solar  4  absorbance, 𝜀𝑡ℎ𝑒𝑟𝑚 is the overall thermal emittance at T, and 𝜎 is the Stefan-Boltzmann constant  of 5.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='67 × 10−8  𝑊  𝑚2  𝐾4 , and C=1000 is the solar concentration ratio of power tower CSP systems.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  2.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Nanoparticle Size (Diameter) Histogram  22  24  26  28  30  32  34  36  38  40  0  5  10  15  20  25  Frequency (%)  Size (nm)  Figure S1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Nanoparticle size distribution histogram.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The average diameter is 31\uf0b13.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='6 nm.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  3.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' X-ray Photoelectron Spectroscopy (XPS) Data Analyses  Figure S2.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='a shows a survey spectrum of as-synthesized Cu-Mn-Cr oxide nanoparticles.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Cu,  Mn, Cr and O are detected from the surface.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Figure S2.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='b shows the binding energies of the Cu 2p  core levels.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Two sharp peaks at about 932 eV and 952 eV are observed, corresponding to the  significantly split spin-orbit components Cu 2p3/2 and Cu 2p1/2 respectively.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Shake-up structures  at about 945 eV and 963 eV are satellite features of Cu with oxidation states.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Such two satellite  peaks reveal the existence of Cu(II) while the relatively low intensity indicates possible mixed  states of Cu(I) and Cu(II).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  5  Figure S2.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' XPS spectra of Cu, Mn, and Cr ions in the synthesized spinel oxide nanoparticles.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  To further investigate the oxidation states and their compositions, principal Cu LMM Auger  peaks (Figure S2.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='c) are collected as well.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' One deconvoluted peak with a binding energy of 916.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5  eV is assigned to Cu(I) 1 and the other one at 918.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='4 eV is assigned to Cu(II) 2 with an error of \uf0b11  eV.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The modified Auger parameters are calculated and compared to minimize the effect of  charging of non-conducting specimens during the measurement.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Cu in CuCr2O4 has an Auger  parameter of nearly 1853 eV 3, close to 1852.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='7 eV, the value we obtained for Cu(II).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Biesinger 4  analyzed XPS data of various copper-containing species in previously published literature and  summarized their Auger parameters.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Our Cu(I) has an Auger parameter of 1848.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='6 eV, which lies  in the range of several Cu(I) involved materials.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' In this case, Cu(I) and Cu(II) are present  (a)  (b)  (c)  Survey  Cu2p  CuLMM  Cu2p12  Cu2p3/2  2p  Mn 2p  cu  01s  Intensity(a.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='u.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=')  Intensity(a.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='u.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=')  Intensity(a.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='u.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=')  Cr 2p  Mn  1000  800  600  400  200  915916917918919920921  B.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='E.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' (eV)  B.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='E.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' (eV)  K.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='E.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' (eV)  (d)  (e)  (f)  Mn2p  Mn3s  Cr2p  Cr2P3/2  Mn 2p3/2  Intensity(a.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='u.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=')  Mn2p1/2  Intensity(a.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='u.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=')  Intensity(a.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='u.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=')  Cr 2P1/2  657654651648645642639  92  90  88  86  84  82  594591588585582579576573  B.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='E.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' (eV)  B.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='E.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' (eV)  B.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='E.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' (eV)6  simultaneously with a ratio of about 4 : 1, taking into account both the percentage of peak areas  and Relative Sensitivity Factors (RSF).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Mn 2p (Figure S2.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='d) and Mn 3s (Figure S2.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='e) data are collected for quantification and  qualification of the chemical species in the specimen.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' In the 2p spectrum, two peaks at about 643.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='0  eV and 654.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5 eV are assigned to the Mn 2p3/2 and Mn 2p1/2 components.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' An extremely broad and  weak satellite peak observed at around 649.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='1 eV is the feature of Mn(II).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Three deconvolved peaks  represent Mn(II), Mn(III) and Mn(IV) with increasing values of binding energies.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Mn 3s spectrum  distinguishes Mn oxidation states in a more straightforward way.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Based on the photoemission final  states with the s electrons parallel or antiparallel to the 3d spin 5, the fewer and fewer 3d unpaired  electrons in Mn(II), Mn(III) and Mn(IV) lead to the smaller and smaller magnitudes of peak  splitting, from around 6.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='0 eV to 5.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='4 eV and to 4.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='7 eV for oxides 6.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' This assists in identifying the  oxidation states and calculating the percentage respectively by taking the energy difference as a  new constraint during the curve fitting.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Eventually, Mn(II), Mn(III) and Mn(IV) are confirmed  coexisting in our specimen with a percentage of 30%, 47% and 23%.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Figure 2.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='f shows the Cr 2p  spectrum, with Cr 2p3/2 peak at around 577.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5 eV and Cr 2p1/2 peak at around 587.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='3 eV.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Cr in  CuCr2O4 is located at 577.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='3 eV 2 and that suggests the existence of Cr(III) 7,8.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Three sub-peaks  with the same full width at half maximum (FWHM) around 1.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='979eV are deconvoluted for Cr 2p3/2  peak, showing the multiplet structure 9 due to the coupling effect between the unpaired core  electron and unpaired electrons in the outer shell 10 in Cr(III).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  7  4.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Fourier Transform Infrared Spectroscopy (FTIR)  750  700  650  600  550  500  450  400  74  76  78  Transmittance (%)  Wavenumber (cm  1)  Mn3+/Cr3+in either  tetrahedron or octahedron  Mn3+/Cr3+ in  [MO6] octahedron  Tetrahedral+  Octahedral  modes  Figure S3.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' FTIR spectrum of the Cu-Mn-Cr oxide nanoparticles showing characteristic spinel  features.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Characteristic IR absorption peaks are observed at ~616, 505, and 420 cm-1, close to the  previous reports on spinel CuMn2O4 11, ZnMn2O4 12, and MnCr2O4 13.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' According to Ref.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' 13, the  peak at ~616 cm-1 corresponds to trivalent cation vibrations in the [MO6] octahedron.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' In our case  this peak is asymmetric, which can be induced by the coexistence of Mn3+ and Cr3+ as well as  valance 2+ and 4+ cations on the octahedral sites, as revealed by the XRD, EDS and XPS analyses  in the main text.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The second peak at 505 cm-1 is attributed to trivalent ions, either on tetrahedral  or octahedral sites.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The last peak at 420 cm-1 is a complex vibrational mode involving both  tetrahedral and octahedral sites.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  8  5.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Nanoparticle Volume Fraction Estimation  Figure S4.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' EDS mapping of Mn in a cross-sectional FIB lamellar of the coating.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The lamellar is  ~150 nm thick.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Since Mn is only present in the pigment nanoparticles and not in the silicone matrix, the  Inconel substrate, or the TEM grid (which is used to mount the FIB sample of the coating), we can  use Mn as a characteristic element of the NPs to derive the corresponding volume fraction by  analyzing the EDS mapping of Mn (Figure S4).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' We utilized Image J to obtain the area fraction of  Mn in the selected area.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' As shown in Figure S4, the yellow dots represent Mn signals and a brighter  color reveals a higher Mn intensity in that region.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The original figure was firstly converted to an  8-bit binary image and a threshold ranging from 51 to 255 was chosen to select the Mn pixels.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Mn  is determined to take 48.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='0% of the entire selected area.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Assuming spherical nanoparticle approximation and no overlapping of the nanoparticles in  the vertical direction, the volume fraction could be expressed as the following equation:  𝑓 =  𝑉𝑀𝑛  𝑉𝑡𝑜𝑡𝑎𝑙 =  𝐴∗𝑥  𝜋𝑟2×4  3𝜋𝑟3  𝐴×𝑡  =  4  3 (  𝑟  𝑡) ∗ 𝑥 ,  (2)  500nm9  where 𝑥 is the area fraction, 𝑟=15.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5\uf0b11.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='8 nm is the radius of nanoparticles (see the histogram in  Figure S1) and 𝑡 = 150 𝑛𝑚 is the thickness of the FIB processed lamellar.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' With this equation, a  volume fraction of f ~7 vol.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' % was derived, which could be regarded as the lower limit since  nanoparticles do overlap in reality.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Another estimation was conducted according to the parameters used during the fabrication  process, including the weight percentage of nanoparticles in the precursor, the density of each  nonvolatile component, and the average coating thickness of 8.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5 μm (as discussed in the main  text).' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Assuming no excessive loss of nanoparticles during the coating process and annealing  process, we obtain an upper limit of volume fraction f ~13 vol.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' %.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Taking the average between the  lower limit estimated by EDS Mn area mapping and the upper limit from chemical precursor ratios,  it is reasonable to consider the volume fraction f=10±3 vol.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' % for comparison with theoretical  modeling.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  6.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' XRD Analyses during Thermal Endurance Tests  XRD measurements were taken every 10 day-night annealing cycles, and Figures S5a and 5c  were plotted with each intermediate state during the whole thermal cycle procedure at 750 ºC and  800 ºC separately to show the deviation for several important peaks.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Generally, the cycled coating  shows similar X-ray diffraction patterns while minor shifts occur.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The peak position of the  characteristic spinel (311) peak is closely examined as shown in Figure S5.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='b and 5d for 750 ºC and  800 ºC, respectively.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' It originally lies at 35.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='78° and tends to shift as the thermal cycle starts.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' It  stabilizes at 35.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='62° for 750 ºC and 35.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='56° for 800 ºC after 20 day-night simulated cycles.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Based  on Bragg’s equation, the peak shift towards a smaller diffraction angle refers to a larger interplanar  spacing, which means the lattice expands slightly.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  10  Figure S5.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' XRD patterns during thermal endurance tests at (a) 750 ºC and (b) 800 ºC, with close  position examination of spinel (311) peak for samples through thermal cycles at (c) 750 ºC and  (d) 800 ºC, respectively.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  From previous work published by Mikhail G.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Brik 14, the lattice constants of CuMn2O4 and  CuCr2O4 are 8.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='33 Å and 8.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='27 Å, while that of MnCr2O4 is 8.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='437 Å.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' A variation from 8.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='410 Å to  8.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='474 Å depending on different milling hours was reported by R.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' N.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Bhowmik15.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Considering the  valences and atom position distributions discussed in the previous section, as more Cr ions dope  into the spinel system and take the octahedral site, Cu and Mn ions tend to sit in the tetrahedral  site, making it closer to the structure of CuCr2O4 and MnCr2O4.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Taking into account the lattice  parameters mentioned above and ion radius data obtained from WebElements 16, it is reasonable  (a)  (q)  Spinel  Mn,03  小Inconel625  533  cycle60  (400)  (311)  (111)  077  cycle50  cycle40  Intensity (a.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='u.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=')  cycle30  Intensity (a.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='u.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=')  cycle 20  cycle10  24h  20  30  40  50  60  70  80  34.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5  35.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='0  35.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5  36.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='0  36.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5  2 theta (degree)  2 theta (degree)  (c)  (d)  cycle60  cycle50  cycle40  cycle 30  Intensity  cycle20  Intensity  cycle 10  24h  20  30  40  50  60  70  80  34.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5  35.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='0  35.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5  36.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='0  36.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='5  2 theta (degree)  2 theta (degree)11  to observe the lattice expansion.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Mn ions are partially released to form Mn2O3, which is in  agreement with a higher Mn2O3/spinel ratio (from 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='142:1 to 0.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='466:1, stabilizing after 30 day-night  thermal cycles at 750 ºC) derived from XRD result.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  7.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Optical Spectra Evolution and EDS Mapping for Interdiffusion Investigation  upon Thermal Cycling  500  1000  1500  2000  2500  85  90  95  100  Absorptance (%)  Wavelength (nm)  24h  cycle 10  cycle 20  cycle 30  cycle 40  cycle 50  cycle 60  CuCr2O4  Figure S6.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' UV-vis-NIR absorption spectra of Cu-Mn-Cr oxide nanoparticle pigmented solar  selective coating during thermal endurance tests at 800 ºC compared with as-coated CuCr2O4  nanoparticle pigmented coating.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Figure S7.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Cross-section STEM image and EDS mapping result of cross-sectional FIB cut  specimens of Cu-Mn-Cr oxide nanoparticle pigmented solar selective coating (a) before and (b)  Ni  Mn  wrl  um  um  1um  Ni  Mn  2μm  2um  2um  2um12  after 60 day-night thermal cycles at 750 ºC.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Part of the coating was damaged during the FIB milling  processed.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  Detailed investigation in the interface between the nanoparticle-pigmented coating and the  Inconel alloy substrate was conducted by observing the cross-sections of the specimen processed  by FIB milling.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' According to the STEM image shown in Figure S7a, an oxide layer of around 100  nm was formed after 24h annealing at 750 ºC.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Further EDS mapping reveals that the oxide layer  mainly consists of Cr based oxides.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' As an obvious comparison in Figure S7b, a much thicker oxide  layer was observed for the sample that has completed 60 day-night simulated cycles at 750 ºC.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' It  approximately increases to 1 μm thick after long-time thermal cycles.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' This is a common oxide  scale when oxidizing Inconel alloys.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  EDS analyses of the coating were also conducted, and an increasing Cr concentration with  thermal cycling was detected.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Near the surface of the coatings, the Cr concentration increased by  58% after 60 day-night cycles at 750 ºC, and 117% after 60 day-night cycles at 800 ºC.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' This clearly  demonstrates that Cr atoms have diffused from the Inconel substrate through the solar coating and  emerged at the upper layers of the coating.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' The observed Cr diffusion into the coating is fully  consistent with the optical absorption spectrum evolution shown in Figure S6 and the  corresponding discussions in the main text.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content='  13  8.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' Spray-Coated Solar Selective Coating on 48-Inch-Long Tube  Figure S8.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
+page_content=' A photo of spinel Cu-Mn-Cr oxide nanoparticle pigmented solar selective coating on  a 48-inch-long tube prepared by spray coating method.' metadata={'source': '/home/zjlab/wf/langchain-ChatGLM/knowledge_base/FNAzT4oBgHgl3EQfUPz_/content/2301.01265v1.pdf'}
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