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Literature DB >> 33080106

Managing Locally Excited and Charge-Transfer Triplet States to Facilitate Up-Conversion in Red TADF Emitters That Are Available for Both Vacuum- and Solution-Processes.

Jia-Xiong Chen^1,2,3, Ya-Fang Xiao², Kai Wang¹, Dianming Sun¹, Xiao-Chun Fan¹, Xiang Zhang¹, Ming Zhang¹, Yi-Zhong Shi¹, Jia Yu¹, Feng-Xia Geng³, Chun-Sing Lee², Xiao-Hong Zhang¹.

Abstract

Developing red thermally activated delayed fluorescence (TADF) emitters for high-performance OLEDs is still facing great challenge. Herein, three red TADF emitters, pDBBPZ-DPXZ, pDTBPZ-DPXZ, and oDTBPZ-DPXZ, are designed and synthesized with same donor-acceptor (D-A) backbone with different peripheral groups attaching on the A moieties. Their lowest triplet states change from locally excited to charge transfer character leading to significantly enhance reverse intersystem crossing process. In particular, oDTBPZ-DPXZ exhibits efficient TADF feature and exciton utilization. It not only achieves an external quantum efficiency (EQE) of 20.1 % in red vacuum-processed OLED, but also realize a high EQE of 18.5 % in a solution-processed OLED, which is among the best results in solution-processed red TADF OLEDs. This work provides an effective strategy for designing red TADF molecules by managing energy level alignments to facilitate the up-conversion process and thus enhance exciton harvesting.

Entities: Chemical Disease

Keywords: charge-transfer triplet state; locally excited triplet state; solution-processed OLED; thermally activated delayed fluorescence; vacuum-deposited OLED

Year: 2020 PMID： 33080106 DOI： 10.1002/anie.202012070

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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Cited

5 in total

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5. Tandem rigidification and π-extension as a key tool for the development of a narrow linewidth yellow hyperfluorescent OLED system.

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