How Photogenerated I 2 Induces I-rich Phase Formation in Lead Mixed Halide Perovskites.

Bandgap tunability of lead mixed halide perovskites (LMHPs) is a crucial characteristic for versatile optoelectronic applications. Nevertheless, LMHPs show the formation of iodide-rich (I-rich) phase under illumination, which destabilizes the semiconductor bandgap and impedes their exploitation. Here, we show how I 2 , photogenerated upon charge carrier trapping at iodine interstitials in LMHPs, can promote the formation of I-rich phase. I 2 can react with bromide (Br - ) in the perovskite to form a trihalide ion I 2 Br - (I δ- -I δ+ -Br δ- ), whose negatively charged iodide (I δ- ) can further exchange with another lattice Br - to form the I-rich phase. Importantly, we observe that the effectiveness of the process is dependent on the overall stability of the crystalline perovskite structure. Therefore, the bandgap instability in LMHPs is governed by two factors, i.e., the density of native defects leading to I 2 production and the Br - binding strength within the crystalline unit. Eventually, our study provides rules for the design of chemical composition in LMHPs to reach their full potential for optoelectronic devices. This article is protected by copyright. All rights reserved.