Generalized Self-Doping Engineering towards Ultrathin and Large-Sized Two-Dimensional Homologous Perovskites

Two-dimensional (2D) homologous perovskites are arousing intense interest in photovoltaics and light-emitting fields, attributing to significantly improved stability and increasing optoelectronic performance. However, investigations on 2D homologous perovskites with ultrathin thickness and large lateral dimension have been seldom reported, being mainly hindered by challenges in synthesis. A generalized self-doping directed synthesis of ultrathin 2D homologous (BA)(2)(MA)(n-1)PbnBr3n+1 (1<n<) perovskites uses 2D (BA)(2)PbBr4 perovskites as the template with MA(+) dopant. Ultrathin (BA)(2)(MA)(n-1)PbnBr3n+1 perovskites are formed via an intercalation-merging mechanism, with thickness shrinking down to 4.2nm and the lateral dimension to 57m. The ultrathin 2D homologous (BA)(2)(MA)(n-1)PbnBr3n+1 perovskites are potential materials for photodetectors with promising photoresponse and stability.