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Spin-configuration of emission states in zero-dimensional metal halides

Zhiyuan Kuang, Xinyu Huang, Xing Wang, Chengcheng Wang, Xinrui Wang, Wei Huang, Qiming Peng, Jianpu Wang

2024National Science Review11 citationsDOIOpen Access PDF

Abstract

ABSTRACT Understanding the spin-configuration of excited states in a luminescent material is essential for tailoring its properties for many applications such as light-emitting diodes and spin-optoelectronic devices. Zero-dimensional organic-inorganic metal halide (0D-OIMH) materials have demonstrated remarkable potential in diverse applications owing to their captivating optoelectronic characteristics. However, the electronic structure and spin-configuration of the frequently observed dual-peak emission in these materials remains a subject of intensive debate. In this study, we employ low-temperature magneto-optical measurements to investigate the excited state structure of a representative 0D-OIMH, namely (Bmpip)2SnBr4. The spin-configurations of the dark and bright states are clearly elucidated by measuring the magneto-polarization of the emissions. Our results reveal that the high-energy peak arises from bright excited states within a higher energy band, whilst the low-energy peak originates from a combination of triplet-bright states and singlet-dark states. These findings provide an unambiguous understanding of the exciton structures of the distinctive 0D-OIMHs.

Topics & Concepts

Excited stateSinglet stateExcitonSpin (aerodynamics)Spin statesMaterials scienceSinglet fissionSpin polarizationHalideLuminescencePolarization (electrochemistry)Triplet stateAtomic physicsCondensed matter physicsOptoelectronicsPhysicsChemistryElectronPhysical chemistryThermodynamicsQuantum mechanicsInorganic chemistryPerovskite Materials and Applications2D Materials and ApplicationsAdvanced Condensed Matter Physics
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