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钙钛矿太阳能电池无机空穴传输材料的研究进展
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陈雨 1,2(  ), 林埔安 1,2, 蔡冰 2( ), 张文华 1,2( )
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Research Progress of Inorganic Hole Transport Materials in Perovskite Solar Cells
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CHEN Yu 1,2( ), LIN Puan 1,2, CAI Bing 2( ), ZHANG Wenhua 1,2( )
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图4. 铜基氧化物的物理形貌和相关性能
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Fig. 4. Morphology and related properties of copper-based oxide materials
(a) Cross-sectional SEM image and (b) stability performance of the device with different HTL (Spiro-OMeTAD and Cu2O)[26]; (c) Preparation technology, device structure, energy level diagram and (d) J-V curves of Cu2O and CuO films[40]; (e) TEM image of CuGaO2 nanocrystals and (f) stability of the device[45]; (g) J-V curves, structure diagram (PC61BM: [6,6]-phenyl-C61-butyric acid methyl ester) and (h) stability of device based on mp-CuGaO2[39]; (i) Schematic diagram of nanocrystalline structure and (j) stability of devices based on CuCrO2[46]; (k) TEM image of CuScO2 nanocrystals and (l) J-V curves of PSCs[28]. Colorful figures are available on website
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