New bipolar host materials for high power efficiency green thermally activated delayed fluorescence OLEDs

•Four TADF materials with carbazole donor, and benzonitrile-substituted pyrimidine or triazine as acceptor core were developed.•OLEDs with m-CzPym, p-CzPym, m-CzTrz, and p-CzTrz as host and 4CzIPN were fabricated.•An impressive external quantum efficiency of 31.5% and a superior power efficiency of...

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Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2022-08, Vol.442, p.136292, Article 136292
Main Authors: Chen, Chia-Hsun, Lin, Shih-Chun, Lin, Bo-Yen, Li, Che-Yu, Kong, Yu-Cheng, Chen, Yi-Sheng, Fang, Shao-Cheng, Chiu, Ching-Huang, Lee, Jiun-Haw, Wong, Ken-Tsung, Lin, Chi-Feng, Hung, Wen-Yi, Chiu, Tien-Lung
Format: Article
Language:English
Subjects:
Organic light emitting diode (OLED)
Power efficiency
Thermally activated delayed fluorescence (TADF)
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Summary:•Four TADF materials with carbazole donor, and benzonitrile-substituted pyrimidine or triazine as acceptor core were developed.•OLEDs with m-CzPym, p-CzPym, m-CzTrz, and p-CzTrz as host and 4CzIPN were fabricated.•An impressive external quantum efficiency of 31.5% and a superior power efficiency of 116.5 lm W−1 were achieved.•Impressive efficiency roll-off performance (approximately 90% of EQEmax at 5000 cd m−2). Four bipolar molecules, namely m-CzPym, p-CzPym, m-CzTrz, and p-CzTrz, with carbazole (Cz) donor and a benzonitrile-substituted pyrimidine (Pym) or triazine (Trz) acceptor core were synthesized and characterized. The electron deficiency of heteroaryl cores together with the substitution pattern of benzonitrile were employed to tune the energy levels as well as the thermally activated delayed fluorescence (TADF) characteristics. The four molecules exhibited TADF behavior with inferior photoluminescent quantum yields (PLQYs) that limit their applications as emitters. These bipolar molecules were employed as TADF host materials for the benchmark TADF emitter 4CzIPN to achieve high-performing green TADF organic light-emitting diodes (OLEDs). Among the molecules, m-CzPym-hosted TADF-OLEDs achieved a maximum external quantum efficiency (EQEmax) of 31.5%, maximum power efficiency (PEmax) of 95.6 lm/W, and maximum current efficiency (CEmax) of 100.2 cd/A. Notably, p-CzPym-hosted TADF-OLEDs also achieved a PEmax of 116.5 lm/W, turn-on voltage of 2.5 V, and impressive low efficiency roll-off performance (>89% of EQEmax at 5000 cd/m2), representing one of the highest efficiencies ever reported in 4CzIPN-doped devices. The high device efficiency can be ascribed to the balanced ambipolar carrier-transporting character of the host materials and high PLQY as well as the outstanding light outcoupling efficiency of the emitting layer.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2022.136292