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Enhanced Efficiency of Exciplex Emission from a 9-Phenylfluorene Derivative

Hong‐Tao Cao, Pengfei Hou, Wen-Jing Yu, Ying Gao, Bo Li, Quanyou Feng, He Zhang, Shasha Wang, Zhong‐Min Su, Linghai Xie

2023ACS Applied Materials & Interfaces20 citationsDOI

Abstract

The exciplex-thermally activated delayed fluorescence (exciplex-TADF) system is an excellent candidate for the fabrication of high-efficiency organic light-emitting diodes (OLEDs) because of its more easily achieved small singlet–triplet energy splitting (Δ E ST ) and doping control. However, exciplex-TADF is still faced with the problems of low external quantum efficiency (η ext ) and unclear effect of structure modification in electron acceptors. Herein, we provide a steric hindrance increase strategy to obtain high-efficiency exciplex emissions. Through introducing a 9-phenylfluorene group into N -ethylcarbazole of the dicyano-substituted 9-phenylfluorene, an electron acceptor material with increased steric hindrance is obtained, which helps the exciplex harvest a larger driving force and higher emission efficiencies. Encouragingly, the obtained OLED displays a maximum η ext of 25.8%, which is one of the best efficiency values among reported exciplex-OLEDs, simultaneously possessing excellent current efficiency of 83.6 cd A –1 and power efficiency of 93.7 lm W –1 . It is expected that this work will offer a new avenue for designing electron acceptors for highly efficient exciplex emissions.

Topics & Concepts

ExcimerOLEDMaterials scienceSteric effectsAcceptorQuantum efficiencyPhotochemistryDiodeOptoelectronicsSinglet stateElectron acceptorDopingEnergy conversion efficiencyFluorescenceExcited stateNanotechnologyChemistryOpticsAtomic physicsOrganic chemistryPhysicsLayer (electronics)Condensed matter physicsOrganic Light-Emitting Diodes ResearchOrganic Electronics and PhotovoltaicsLuminescence and Fluorescent Materials
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