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Achieving Intrinsic Luminescence of Pure Organic Mono‐ and Di‐Radicals in Aggregated States

Jiahao Guan, Zihao Zhu, Quanquan Gou, Jingmin Wang, Zhiyuan Kuang, Lintao Zhang, Xuewei Zhang, Xin Ai, Alim Abdurahman, Qiming Peng

2025Aggregate6 citationsDOIOpen Access PDF

Abstract

ABSTRACT Organic luminescent radicals are promising for optoelectronic applications, yet their practical implementation remains hindered by aggregation‐caused quenching (ACQ) in aggregated states. In this study, we present a molecular design strategy that enables unprecedented intrinsic luminescence from pure radicals across multiple aggregated states, including crystalline states, powders, and amorphous films, through the incorporation of sterically demanding TPP (2,4,6‐triisopropylphenyl) groups. Comprehensive photophysical characterization coupled with structural analysis reveals that the TPP moieties effectively suppress detrimental intermolecular interactions, particularly exchange coupling and π–π stacking between radical centers. The luminescent properties were analyzed via systematic theoretical calculations. The universality of this design principle is further demonstrated through its successful application to diradical systems, including Chichibabin's and Müller's hydrocarbons, which exhibit significantly enhanced emission in aggregated states. This work establishes a generalizable strategy for designing stable and efficient luminescent radicals in aggregated states, opening new avenues for radical‐based optoelectronic devices.

Topics & Concepts

StackingLuminescenceRadicalDiradicalIntermolecular forceQuenching (fluorescence)Steric effectsPhotochemistryMaterials scienceAmorphous solidChemical physicsNanotechnologyChemistryOptoelectronicsOrganic chemistryMoleculeExcited statePhysicsFluorescenceAtomic physicsQuantum mechanicsSinglet stateOrganic Light-Emitting Diodes ResearchLuminescence and Fluorescent MaterialsSynthesis and Properties of Aromatic Compounds
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