Ion-Exchange-Induced 2D-3D Conversion of HMA1-x FAx PbI3 Cl Perovskite into a High-Quality MA1-x FAx PbI3 Perovskite

Abstract

High-quality phase-pure MA_1-x FA_x PbI₃ planar films (MA=methylammonium, FA=formamidinium) with extended absorption and enhanced thermal stability are difficult to deposit by regular simple solution chemistry approaches owing to crystallization competition between the easy-to-crystallize but unwanted δ-FAPbI₃ /MAPbI₃ and FA_x MA_1-x PbI₃ requiring rigid crystallization conditions. Here A 2D-3D conversion to transform compact 2D mixed composition HMA_1-x FA_x PbI₃ Cl perovskite precursor films into 3D MA_1-x FA_x PbI₃ (x=0.1-0.9) perovskites is presented. The designed Cl/I and H/FA(MA) ion exchange reaction induced fast transformation of compact 2D perovskite film, helping to form the phase-pure and high quality MA_1-x FA_x PbI₃ without δ-FAPbI₃ and MAPbI₃ impurity. In all, we successfully developed a facile one-step method to fabricate high quality phase-pure MA_1-x FA_x PbI₃ (x=0.1-0.9) perovskite films by 2D-3D conversion of HMA_1-x FA_x PbI₃ Cl perovskite. This 2D-3D conversion is a promising strategy for lead halide perovskite fabrication.

Keywords: 2D perovskites; 2D-3D conversion; ion exchange; mixed-cation perovskites; perovskite solar cells.