Stabilizing black-phase formamidinium perovskite formation at room temperature and high humidity

Wei Hui; Lingfeng Chao; Hui Lu; Fei Xia; Qi Wei; Zhenhuang Su; Tingting Niu; Lei Tao; Bin Du; Deli Li; Yue Wang; He Dong; Shouwei Zuo; Bixin Li; Wei Shi; Xueqin Ran; Ping Li; Hui Zhang; Zhongbin Wu; Chenxin Ran; Lin Song; Guichuan Xing; Xingyu Gao; Jing Zhang; Yingdong Xia; Yonghua Chen; Wei Huang

doi:10.1126/science.abf7652

Stabilizing black-phase formamidinium perovskite formation at room temperature and high humidity

Wei Hui(Nanjing Tech University), Lingfeng Chao(Northwestern Polytechnical University), Hui Lu(Nanjing Tech University), Fei Xia(Nanjing Tech University), Qi Wei(University of Macau), Zhenhuang Su(Chinese Academy of Sciences), Tingting Niu(Northwestern Polytechnical University), Lei Tao(Nanjing Tech University), Bin Du(Nanjing Tech University), Deli Li(Northwestern Polytechnical University), Yue Wang(Northwestern Polytechnical University), He Dong(Northwestern Polytechnical University), Shouwei Zuo(Chinese Academy of Sciences), Bixin Li(Hunan First Normal University), Wei Shi(Nanjing Tech University), Xueqin Ran(Nanjing Tech University), Ping Li(Nanjing Tech University), Hui Zhang(Nanjing Tech University), Zhongbin Wu(Northwestern Polytechnical University), Chenxin Ran(Northwestern Polytechnical University), Lin Song(Northwestern Polytechnical University), Guichuan Xing(University of Macau), Xingyu Gao(Chinese Academy of Sciences), Jing Zhang(Chinese Academy of Sciences), Yingdong Xia(Nanjing Tech University), Yonghua Chen(Nanjing Tech University), Wei Huang(Nanjing Tech University)

Science

March 25, 2021

10.1126/science.abf7652

Cited by 787

Abstract

Perovskite synthesis out in the open Although methods have been developed that create the photoactive black perovskite phase of formamidinium lead iodide (α-FAPbI 3 ), these routes are temperature and humidity sensitive and less compatible with large-scale solar cell production. Hui et al. report an alternative route in which vertically aligned lead iodide thin films are grown from the ionic liquid methylamine formate. Nanoscale channels in the films lower the barrier to permeation of formamidinium iodide and enable transformation to α-FAPbI 3 , even at high humidity and room temperature. Solar cells made with these films have power conversion efficiencies as high as 24.1% that display high stability. Science , this issue p. 1359

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