三卤化物
载流子
扩散
化学物理
放松(心理学)
材料科学
电子
俘获
光电导性
电导率
电子迁移率
纳米孔
光电子学
兴奋剂
纳米技术
化学
物理
物理化学
无机化学
社会心理学
心理学
生态学
量子力学
卤化物
生物
热力学
作者
Xuejian Ma,Fei Zhang,Zhaodong Chu,Ji Hao,Xihan Chen,Jiamin Quan,Zhiyuan Huang,Xiaoming Wang,Xiaoqin Li,Yanfa Yan,Kai Zhu,Keji Lai
标识
DOI:10.1038/s41467-021-25311-1
摘要
Abstract The outstanding performance of organic-inorganic metal trihalide solar cells benefits from the exceptional photo-physical properties of both electrons and holes in the material. Here, we directly probe the free-carrier dynamics in Cs-doped FAPbI 3 thin films by spatiotemporal photoconductivity imaging. Using charge transport layers to selectively quench one type of carriers, we show that the two relaxation times on the order of 1 μs and 10 μs correspond to the lifetimes of electrons and holes in FACsPbI 3 , respectively. Strikingly, the diffusion mapping indicates that the difference in electron/hole lifetimes is largely compensated by their disparate mobility. Consequently, the long diffusion lengths (3~5 μm) of both carriers are comparable to each other, a feature closely related to the unique charge trapping and de-trapping processes in hybrid trihalide perovskites. Our results unveil the origin of superior diffusion dynamics in this material, crucially important for solar-cell applications.
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