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Realizing highly efficient electrofluorescence through a co-axial hybrid local and charge-transfer (HLCT) excited state

Kuo‐Pin Yu, Yingbo Lv, Yilong Li, Zirui Wang, Shitong Zhang, Jinbei Wei, Shanfeng Xue, Chenguang Wang, Bing Yang

2025Chemical Science7 citationsDOIOpen Access PDF

Abstract

In this work, we report two high-performance donor-acceptor (D-A) electrofluorescent materials DPXZ-PI and DPXZ-PICN which are designed with novel co-axial hybrid local and charge-transfer (HLCT) excited states. The co-axial HLCT state features the direct bonding of a strong electron donor diphenoxazine (DPXZ) with a weak electron acceptor phenanthroimidazole (PI). This co-axial HLCT state is initially constructed in DPXZ-PI resulting in a high photoluminescence quantum yield (PLQY) of 81.7% and a high maximum external quantum efficiency (EQE) of 14.8% in a doped organic light-emitting diode (OLED), which is among the best results obtained for HLCT emitter-based OLEDs. Notably, the co-axial HLCT state is stable upon the introduction of the strong electron acceptor cyano-benzene, thus allowing an increase in the electron mobility in the OLED and resulting in a high EQE of 11.6% in a non-doped OLED based on DPXZ-PICN. Overall, the co-axial HLCT state facilitates an increase in the PLQY while maintaining exciton utilizing efficiency (EUE) in the OLED, and thus it is an effective instrument for producing highly-efficient electrofluorescent materials and devices.

Topics & Concepts

OLEDExcited statePhotoluminescenceAcceptorExcitonQuantum yieldMaterials scienceOptoelectronicsDiodeElectronQuantum efficiencyDopingElectron acceptorYield (engineering)Electron donorState (computer science)Atomic physicsElectron mobilityTriplet stateQuantumPhotochemistry and Electron Transfer StudiesPhotonic and Optical DevicesOrganic Light-Emitting Diodes Research