硫化碲光伏电池性能的模拟研究任务书

 2021-11-04 09:11

1. 毕业设计(论文)的内容和要求

硫化锑(Sb2S3)具有正交晶体结构,是一种半导体材料。

它具有高吸收系数(>105cm-1)、合适的带隙(1.7eV)、低毒、储量丰富,是一种潜在的优秀光伏材料。

1994年,Savadogo 等首次采用化学法将 Sb2S3薄膜沉积在Ge基底上制备出异质结薄膜太阳能电池,从此开始了Sb2S3太阳能电池研究的序幕。

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2. 参考文献

建议开题报告和毕业论文的涉及英文文献不少于30篇,以下是与本课题相关的部分文献, 请学生根据需要自行补充。

[1] Jiang C, Tang R, Wang X, et al. Alkali Metals Doping for High-Performance Planar Heterojunction Sb2S3 Solar Cells[J]. Solar RRL, 2019,3(1):1800272.[2] Kondrotas R, Chen C, Tang J. Sb2S3 Solar Cells[J]. Joule, 2018,2(5):857-878.[3] Deng H, Zeng Y, Ishaq M, et al. Quasiepitaxy Strategy for Efficient Full‐Inorganic Sb2S3 Solar Cells[J]. Advanced Functional Materials, 2019,29(31):1901720.[4] Ishaq M, Deng H, Farooq U, et al. Efficient Copper‐Doped Antimony Sulfide Thin‐Film Solar Cells via Coevaporation Method[J]. Solar RRL, 2019:1900305.[5] Lei H, Lin T, Wang X, et al. Copper doping of Sb2S3: fabrication, properties, and photovoltaic application[J]. Journal of Materials Science: Materials in Electronics, 2019,30(24):21106-21116.[6] Wang Q, Chen Z, Wang J, et al. Sb2S3 solar cells: functional layer preparation and device performance[J]. Inorganic Chemistry Frontiers, 2019,6:3381-3397.[7] Jin X, Yuan Y, Jiang C, et al. Solution processed NiOx hole-transporting material for all-inorganic planar heterojunction Sb2S3 solar cells[J]. Solar Energy Materials and Solar Cells, 2018,185:542-548.[8] Zhang L, Jiang C, Wu C, et al. V2O5 as Hole Transporting Material for Efficient All Inorganic Sb2S3 Solar Cells[J]. ACS Applied Materials gas reaction[J]. Journal of Materials Chemistry A, 2017,5(10):4791-4796.[14] Chen X, Li Z, Zhu H, et al. CdS/Sb2S3 heterojunction thin film solar cells with a thermally evaporated absorber[J]. Journal of Materials Chemistry C, 2017,5(36):9421-9428.[15] Yuan S, Deng H, Dong D, et al. Efficient planar antimony sulfide thin film photovoltaics with large grain and preferential growth[J]. Solar Energy Materials and Solar Cells, 2016,157:887-893.[16] Choi Y C, Lee D U, Noh J H, et al. Highly Improved Sb2S3 Sensitized-Inorganic-Organic Heterojunction Solar Cells and Quantification of Traps by Deep-Level Transient Spectroscopy[J]. Advanced Functional Materials, 2014,24(23):3587-3592.[17] Lan C, Luo J, Lan H, et al. Enhanced Charge Extraction of Li-Doped TiO2 for Efficient Thermal-Evaporated Sb2S3 Thin Film Solar Cells[J]. Materials, 2018,11(3):355.[18] Guo L, Zhang B, Li S, et al. Scalable and efficient Sb2S3 thin-film solar cells fabricated by close space sublimation[J]. APL Materials, 2019,7(4):41105.

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