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Extremely High Power Efficiency Solution‐Processed Orange‐Red TADF OLEDs via a Synergistic Strategy of Molecular and Device Engineering

Dehao Jiang, Hisahiro Sasabe, Hiroki Arai, Kohei Nakao, Kengo Kumada, Junji Kido

2022Advanced Optical Materials23 citationsDOIOpen Access PDF

Abstract

Abstract The development of high‐performance, solution‐processed, orange‐red organic light‐emitting diodes (OLEDs) based on thermally activated delayed fluorescence (TADF) emitters is a challenging endeavor. In this study, two orange‐red TADF emitters, namely 2DMAC‐DBP‐2 t BuCz and 2SPAC‐DBP‐2 t BuCz , are developed by a novel donor–acceptor–functional‐group (D‐A‐R) molecular design strategy. This design makes the molecules highly soluble and inhibits concentration quenching of excitons, rendering the emitter suitable for use in devices with high concentration to boost their performance. The solution‐processed, orange‐red OLEDs manufactured in this study achieve a state‐of‐the‐art maximum external quantum efficiency ( EQE max ) value of 23.7% and an extremely high maximum power efficiency ( PE max ) of 48.8 lm W −1 , which is nearly twice higher than the previously reported best value (27.1 lm W −1 ). Therefore, the collaboration of molecular engineering and sophisticated device design provides a novel method for extremely low power consumption solution‐processed OLEDs.

Topics & Concepts

OLEDMaterials scienceCommon emitterOrange (colour)Quantum efficiencyAcceptorDiodeOptoelectronicsMolecular engineeringElectrical efficiencyExcitonNanotechnologyPower (physics)OpticsCondensed matter physicsLayer (electronics)Quantum mechanicsPhysicsOrganic Light-Emitting Diodes ResearchOrganic Electronics and PhotovoltaicsLuminescence and Fluorescent Materials
Extremely High Power Efficiency Solution‐Processed Orange‐Red TADF OLEDs via a Synergistic Strategy of Molecular and Device Engineering | Litcius