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Metal Halide Regulated Photophysical Tuning of Zero‐Dimensional Organic Metal Halide Hybrids: From Efficient Phosphorescence to Ultralong Afterglow

Liang‐Jin Xu, Anna Plaviak, Xinsong Lin, Michael Worku, Qingquan He, Maya Chaaban, Bumjoon J. Kim, Biwu Ma

2020Angewandte Chemie International Edition196 citationsDOI

Abstract

Abstract The photophysical tuning is reported for a series of tetraphenylphosphonium (TPP) metal halide hybrids containing distinct metal halides, TPP 2 MX n (MX n =SbCl 5 , MnCl 4 , ZnCl 4 , ZnCl 2 Br 2 , ZnBr 4 ), from efficient phosphorescence to ultralong afterglow. The afterglow properties of TPP + cations could be suspended for the hybrids containing low band gap emissive metal halide species, such as SbCl 5 2− and MnCl 4 2− , but significantly enhanced for the hybrids containing wide band gap non‐emissive ZnCl 4 2− . Structural and photophysical studies reveal that the enhanced afterglow is attributed to stronger π–π stacking and intermolecular electronic coupling between TPP + cations in TPP 2 ZnCl 4 than in the pristine organic ionic compound TPPCl. Moreover, the afterglow in TPP 2 ZnX 4 can be tuned by controlling the halide composition, with the change from Cl to Br resulting in a shorter afterglow due to the heavy atom effect.

Topics & Concepts

AfterglowHalidePhosphorescenceMetalChemistryPhotochemistryMetal halidesIonic bondingStackingInorganic chemistryIonFluorescenceOrganic chemistryPhysicsGamma-ray burstQuantum mechanicsAstronomyPerovskite Materials and ApplicationsLuminescence and Fluorescent MaterialsOrganic Light-Emitting Diodes Research
Metal Halide Regulated Photophysical Tuning of Zero‐Dimensional Organic Metal Halide Hybrids: From Efficient Phosphorescence to Ultralong Afterglow | Litcius