Silicon heterojunction solar cells with up to 26.81% efficiency achieved by electrically optimized nanocrystalline-silicon hole contact layers

Lin, Hao; Yang, Miao; Ru, Xiaoning; Wang, Genshun; Yin, Shi; Peng, Fuguo; Hong, Chengjian; Qu, Minghao; Lu, Junxiong; Fang, Liang; Han, Can; Prócel, Paul; Isabella, Olindo; Gao, Pingqi; Li, Zhenguo; Xu, Xixiang

doi:10.1038/s41560-023-01255-2

articleNature EnergyMay 4, 2023HYBRID OA

Silicon heterojunction solar cells with up to 26.81% efficiency achieved by electrically optimized nanocrystalline-silicon hole contact layers

HLHao Lin MYMiao Yang XRXiaoning Ru GWGenshun Wang SYShi Yin

Sun Yat-sen University · Solar Energy Research Institute of Sun Yat-sen University · +1 more institution

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Abstract

Abstract Silicon heterojunction (SHJ) solar cells have reached high power conversion efficiency owing to their effective passivating contact structures. Improvements in the optoelectronic properties of these contacts can enable higher device efficiency, thus further consolidating the commercial potential of SHJ technology. Here we increase the efficiency of back junction SHJ solar cells with improved back contacts consisting of p-type doped nanocrystalline silicon and a transparent conductive oxide with a low sheet resistance. The electrical properties of the hole-selective contact are analysed and compared with a p-type doped amorphous silicon contact. We demonstrate improvement in the charge carrier…

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Topics & keywords

Topics

Keywords

Materials science
Optoelectronics
Silicon
Wafer
Contact resistance
Energy conversion efficiency
Doping
Amorphous silicon

UN Sustainable Development Goals

Affordable and clean energy

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