LAUSR

Metal halide perovskite (MHP) semiconductors exhibit unprecedented optoelectronic properties coupled with low formation energies that enable scalable, cost-efficient solution processing. The low formation energies additionally facilitate dynamic transformation of the chemical composition and crystal structure of the MHP material. In this work, we show that CsBr salt is selectively extracted from CsPbBr3 nanocrystals (NCs) to yield PbBr2 NCs. The PbBr2 NCs are then exposed to different glacial acetic acid ABr salt solutions to generate a variety of emissive compounds with the generic structure A′2An–1PbnBr3n–1X′2, where A = cesium (Cs+), methylammonium (MA+), formamidinium (FA+); A′ = A or H+; X′ = Br– or acetate (CH3COO–); and n is the number of lead halide layers, where n = 1, 2, 3, ...∞. We systematically vary the ratios of PbBr2/ABr/CH3COOH and show that certain ratios result in isolable single-phase APbBr3 NCs—an effective A-site cation exchange from the parent CsPbBr3 NCs. Importantly, time-resolved ...