Stability of Perovskite Thin Films under Working Condition: Bias‐Dependent Degradation and Grain Boundary Effects

材料科学 钙钛矿(结构) 光电流 晶界 钝化 偏压 开尔文探针力显微镜 载流子寿命 能量转换效率 成核 分解 光电子学 降级(电信) 化学工程 纳米技术 原子力显微镜 图层(电子) 复合材料 化学 电压 电子工程 微观结构 有机化学 工程类 物理 量子力学
作者
Hui Yong,Yanyan Tan,Liang Chen,Zi‐Ang Nan,Jian‐Zhang Zhou,Jiawei Yan,Bing‐Wei Mao
出处
期刊:Advanced Functional Materials [Wiley]
卷期号:31 (36) 被引量:55
标识
DOI:10.1002/adfm.202103894
摘要

Abstract Witnessed by the rapid increase of power conversion efficiency to 25.5%, organic–inorganic hybrid perovskite solar cells (PSCs) are becoming promising candidates of next‐generation photovoltaics. However, PSCs can be unstable under the influence of light and bias. Especially, grain boundaries (GBs) are vulnerable to attack by light and bias in perovskite films, leading to degradation of photovoltaic properties of PSCs. Herein, photocurrent atomic force microscopy and Kelvin probe force microscopy are employed to systematically investigate the bias‐dependent charge transport behaviors and stability of (FAPbI 3 ) 0.85 (MAPbBr 3 ) 0.15 perovskite under working condition. Bias‐dependent morphology and photocurrent images show irreversible decomposition of the perovskite at a bias of 0.1 V or below, which is accelerated by light illumination, leading to formation of an interfacial layer that restricts carrier transport. Meanwhile, GBs appear to enhance carrier transport at larger bias, but serve as breakthrough sites for perovskite decomposition at smaller bias. Introducing excess methylammonium iodide promotes decomposition, while potassium iodide passivation greatly relieves the decomposition. These results support the ion migration mechanism of decomposition through interfaces and GBs. This work provides a deeper understanding of bias‐induced degradation of PSCs as well as bias‐dependent double‐edged roles of GBs, and forms valuable guidance for appropriate operation of PSCs.
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