Nuclei engineering for even halide distribution in stable perovskite/silicon tandem solar cells
Beijing Institute of Technology · Beijing Research Institute of Mechanical and Electrical Technology · +6 more institutions
Abstract
Wide-bandgap (WBG) absorbers in tandem configurations suffer from poor crystallinity and weak texture, which leads to severe mixed halide-cation ion migration and phase segregation during practical operation. We control WBG film growth insensitive to compositions by nucleating the 3C phase before any formation of bromine-rich aggregates and 2H phases. The resultant WBG absorbers show improved crystallinity and strong texture with suppressed nonradiative recombination and enhanced resistance to various aging stresses. Perovskite/silicon tandem solar cells achieve power conversion efficiencies of 29.4% (28.8% assessed by a third party) in a 25-square centimeter active area and 32.5% in a 1-square centimeter…
Citation impact
- FWCI
- 29.78
- Percentile
- 100%
- References
- 43
Authors
20- YCYihua ChenCorresponding
Beijing Institute of Technology, Beijing Research Institute of Mechanical and Electrical Technology, Zhuhai Institute of Advanced Technology
- NYNing YangCorresponding
Beijing Institute of Technology, Beijing Research Institute of Mechanical and Electrical Technology, Zhuhai Institute of Advanced Technology
- GZGuanhaojie ZhengCorresponding
Chinese Academy of Sciences, Shanghai Advanced Research Institute
- FPFengtao Pei
Beijing Institute of Technology, Beijing Research Institute of Mechanical and Electrical Technology, Zhuhai Institute of Advanced Technology
- WZWentao Zhou
Peking University
Topics & keywords
- Crystallinity
- Tandem
- Materials science
- Perovskite (structure)
- Halide
- Silicon
- Energy conversion efficiency
- Band gap