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The Role of Locally Excited State and Charge Transfer State in Organic Room Temperature Phosphorescence and Corresponding Applications

Yao Zhao, Ya‐Wen Zhang, Jie Yang, Yi Chen, G. X. Pu, Yunsheng Wang, Dan Li, Wei Fan, Manman Fang, Jishan Wu, Zhen Li

2024Advanced Optical Materials23 citationsDOIOpen Access PDF

Abstract

Abstract Donor–acceptor (D–A) structure with charge transfer (CT) effect is widely utilized in the construction of organic luminescent materials. The adjustment of their CT effect and related luminescent property usually relies on the changes of molecular structure with different D or A moieties, which will lead to some uncertainties in structure‐property relationship. With the aim to explore the clear inherent luminescent mechanism for D–A molecule with CT effect, it is ideal that the regulation of intramolecular charge transfer in one same D–A molecule can be realized. Accordingly, three D–A type organic phosphorescence luminogens are designed and synthesized. Once being doped into different polymer matrixes, disparate charge transfer effects and related room temperature phosphorescence (RTP) properties can be achieved for a single molecule. Subsequent experiments confirm that different distributions of molecules with locally excited (LE) state and CT state are mainly responsible for their distinct RTP behaviors, exhibiting the well‐clarified structure‐property relationship of D–A type phosphorescence luminogens. Furthermore, the transition from CT to LE state can even be realized through chemical reaction, leading to the activated RTP effect for practical applications.

Topics & Concepts

PhosphorescenceMaterials scienceExcited stateCharge (physics)State (computer science)Persistent luminescenceChemical physicsOptoelectronicsAtomic physicsPhotochemistryLuminescenceOpticsFluorescenceQuantum mechanicsPhysicsThermoluminescenceChemistryAlgorithmComputer scienceLuminescence and Fluorescent MaterialsOrganic Light-Emitting Diodes ResearchPhotoreceptor and optogenetics research