Metallic Lead Formation in Perovskites: Mechanisms, Suppression, and Future Directions
Ahmed L. Abdelhady, Shakil N. Afraj, Yuki Haruta, Mohammed Misbah Uddin, Makhsud I. Saidaminov
Abstract
High Resolution Image Download MS PowerPoint Slide Lead halide perovskites APbX 3 (A = methylammonium, formamidinium, cesium; X = halogen) have advanced the field of optoelectronics, particularly in solar cells, photodetectors, and light-emitting diodes, due to their outstanding properties. However, a significant challenge remains unresolved: the formation of metallic lead (Pb 0 ), which introduces deep-level defects that trap charge carriers and degrade device performance. The formation of Pb 0 in perovskites can occur after their synthesis under various conditions, including high-energy radiation, light, heat, and moisture, and has also been observed during perovskite crystallization. Thus, it is crucial to understand the underlying mechanisms of Pb 0 formation and its suppression pathways. Recent studies have explored various strategies to suppress Pb 0 formation, including compositional engineering, additive incorporation, and protective passivation layers. In this review, we discuss the origins of Pb 0 formation in perovskites, focusing on the mechanisms driving this process under different environmental conditions, and then strategies for suppressing Pb 0 formation, including compositional engineering and passivation techniques. By addressing these aspects, we seek to identify pathways for enhancing the stability and performance of perovskite-based devices, enabling their widespread adoption in commercial applications.