Initializing film homogeneity to retard phase segregation for stable perovskite solar cells

Bai, Yang; Huang, Zijian; Zhang, Xiao; Lu, Jiuzhou; Niu, Xiuxiu; He, Ziwen; Zhu, Cheng; Xiao, Mengqi; Song, Qizhen; Wei, Xueyuan; Wang, Chenyue; Cui, Zhenhua; Dou, Jing; Chen, Yihua; Pei, Fengtao; Zai, Huachao; Wang, Wei; Song, Tinglu; An, Pengfei; Zhang, Jing; Dong, Juncai; Li, Yiming; Shi, Jiangjian; Jin, Haibo; Chen, Pengwan; Sun, Yuchao; Li, Yujing; Chen, Haining; Wei, Zhongming; Zhou, Huanping; Chen, Qi

doi:10.1126/science.abn3148

articleScienceNov 17, 2022Closed access

Initializing film homogeneity to retard phase segregation for stable perovskite solar cells

YBYang Bai ZHZijian Huang XZXiao Zhang JLJiuzhou Lu XNXiuxiu Niu

Beijing Institute of Technology · Beijing University of Technology · +9 more institutions

PubMed

Indexed incrossrefpubmed

Abstract

The mixtures of cations and anions used in hybrid halide perovskites for high-performance solar cells often undergo element and phase segregation, which limits device lifetime. We adapted Schelling’s model of segregation to study individual cation migration and found that the initial film inhomogeneity accelerates materials degradation. We fabricated perovskite films (FA 1–x Cs x PbI 3 ; where FA is formamidinium) through the addition of selenophene, which led to homogeneous cation distribution that retarded cation aggregation during materials processing and device operation. The resultant devices achieved enhanced efficiency and retained >91% of their initial efficiency after 3190 hours at the maximum…

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281

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FWCI: 22.25
Percentile: 100%
References: 48

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Authors

31

Topics & keywords

Topics

Keywords

Formamidinium
Homogeneity (statistics)
Homogeneous
Perovskite (structure)
Materials science
Phase (matter)
Halide
Degradation (telecommunications)

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