Статья

Sb<sub>2</sub>Se<sub>3</sub> Thin‐Film Solar Cells Exceeding 10% Power Conversion Efficiency Enabled by Injection Vapor Deposition Technology

Zhaoteng DuanNational‐Local Joint Engineering Laboratory of New Energy Photoelectric Devices College of Physics Science and Technology Institute of Life Science and Green Development Hebei University Baoding 071002 ChinaXiaoyang LiangInstitute of New Energy Technology College of Information Science and Technology Jinan University Guangzhou 510632 ChinaFeng YangNational‐Local Joint Engineering Laboratory of New Energy Photoelectric Devices College of Physics Science and Technology Institute of Life Science and Green Development Hebei University Baoding 071002 ChinaHaiya MaNational‐Local Joint Engineering Laboratory of New Energy Photoelectric Devices College of Physics Science and Technology Institute of Life Science and Green Development Hebei University Baoding 071002 ChinaBaolai LiangNational‐Local Joint Engineering Laboratory of New Energy Photoelectric Devices College of Physics Science and Technology Institute of Life Science and Green Development Hebei University Baoding 071002 ChinaYing WangNational‐Local Joint Engineering Laboratory of New Energy Photoelectric Devices College of Physics Science and Technology Institute of Life Science and Green Development Hebei University Baoding 071002 ChinaShiping LuoNational‐Local Joint Engineering Laboratory of New Energy Photoelectric Devices College of Physics Science and Technology Institute of Life Science and Green Development Hebei University Baoding 071002 ChinaShufang WangNational‐Local Joint Engineering Laboratory of New Energy Photoelectric Devices College of Physics Science and Technology Institute of Life Science and Green Development Hebei University Baoding 071002 ChinaR.E.I. SchroppInstitute of New Energy Technology College of Information Science and Technology Jinan University Guangzhou 510632 ChinaYaohua MaiInstitute of New Energy Technology College of Information Science and Technology Jinan University Guangzhou 510632 ChinaZhiqiang LiNational‐Local Joint Engineering Laboratory of New Energy Photoelectric Devices College of Physics Science and Technology Institute of Life Science and Green Development Hebei University Baoding 071002 China

2022en

ABI

Аннотация

Abstract Binary Sb 2 Se 3 semiconductors are promising as the absorber materials in inorganic chalcogenide compound photovoltaics due to their attractive anisotropic optoelectronic properties. However, Sb 2 Se 3 solar cells suffer from complex and unconventional intrinsic defects due to the low symmetry of the quasi‐1D crystal structure resulting in a considerable voltage deficit, which limits the ultimate power conversion efficiency (PCE). In this work, the creation of compact Sb 2 Se 3 films with strong [00 l ] orientation, high crystallinity, minimal deep level defect density, fewer trap states, and low non‐radiative recombination loss by injection vapor deposition is reported. This deposition technique enables superior films compared with close‐spaced sublimation and coevaporation technologies. The resulting Sb 2 Se 3 thin‐film solar cells yield a PCE of 10.12%, owing to the suppressed carrier recombination and excellent carrier transport and extraction. This method thus opens a new and effective avenue for the fabrication of high‐quality Sb 2 Se 3 and other high‐quality chalcogenide semiconductors.

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Идентификаторы

DOI: 10.1002/adma.202202969

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