How lead halide complex chemistry dictates the composition of mixed halide perovskites

SJ Yoon, KG Stamplecoskie… - The journal of physical …, 2016 - ACS Publications
The journal of physical chemistry letters, 2016ACS Publications
Varying the halide ratio (eg, Br–: I–) is a convenient approach to tune the bandgap of
organic lead halide perovskites. The complexation between Pb2+ and halide ions is the
primary step in dictating the overall composition, and optical properties of the annealed
perovskite structure. The complexation between Pb2+ and Br–is nearly 7 times greater than
the complexation between Pb2+ and I–, thus making Br–a dominant binding species in
mixed halide systems. Emission and transient absorption measurements show a strong …
Varying the halide ratio (e.g., Br:I) is a convenient approach to tune the bandgap of organic lead halide perovskites. The complexation between Pb2+ and halide ions is the primary step in dictating the overall composition, and optical properties of the annealed perovskite structure. The complexation between Pb2+ and Br is nearly 7 times greater than the complexation between Pb2+ and I, thus making Br a dominant binding species in mixed halide systems. Emission and transient absorption measurements show a strong dependence of excited state behavior on the composition of halide ions employed in the precursor solution. When excess halide (X = Br and I) are present in the precursor solution (0.3 M PbX2 and 0.9 M CH3NH3X), the exclusive binding of Pb2+ with Br results in the formation of CH3NH3PbBr3 perovskites as opposed to mixed halide perovskite.
ACS Publications
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