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Exciton Self-Trapping in Hybrid Lead Halides: Role of Halogen

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NIAID Data Ecosystem2026-03-11 收录
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https://figshare.com/articles/dataset/Exciton_Self-Trapping_in_Hybrid_Lead_Halides_Role_of_Halogen/9228011
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Low-dimensional hybrid lead halides have recently been reported as efficient white light emitters. However, unlike lead halide 3D perovskites, most of the reported low-dimensional materials with broad-band emission crystallize in different structure types according to their halogen composition (i.e., Cl, Br, and I) for a selected organic molecule. Because of the absence of isostructural halide series, the role of chemistry in the self-trapping of the excitons at the origin of the broad-band emission remains unclear. Among the most efficient white phosphors, hybrid lead bromide (TDMP)­PbBr4 (TDMP = trans-2,5-di­methyl­piper­azinium) built of post-perovskite type chains exhibits a record photoluminescence quantum yield for hybrid lead halides. In this article, the two new isostructural (TDMP)­PbX4 chloride and iodide analogues could be synthesized and structurally characterized. A comparison of the optical properties of the lead halide series reveals a strong dependence of the nature of the halogen (Cl, Br, or I) on the trapping/detrapping of the excitons and the resulting emission intensities, wavelengths, and band broadness.
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2019-07-24
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