Synergy between Photoluminescence and Charge Transport Achieved by Finely Tuning Polymeric Backbones for Efficient Light-Emitting Transistor

Dafei Yuan; Mohammad A. Awais; Valerii Sharapov; Xunshan Liu; Andriy Neshchadin; Wei Chen; Luping Yu

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Synergy between Photoluminescence and Charge Transport Achieved by Finely Tuning Polymeric Backbones for Efficient Light-Emitting Transistor

机译：通过精细调整聚合物骨架实现的光致发光和电荷运输之间的协同作用，用于高效发光晶体管

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The lack of design principle for developing high-performance polymer materials displaying strong fluorescence and high ambipolar charge mobilities limited their performance in organic light-emitting transistors (OLETs), electrically pumped organic laser, and other advanced electronic devices. A series of semiladder polymers by copolymerization of weak acceptors (TPTQ or TPTI) and weak donors (fluorene (F) or carbazole (C)) have been developed for luminescent and charge transporting properties. It was found that enhanced planarity, high crystallinity, and a delicate balance in interchain aggregation obtained in the new copolymer, TPTQ-F, contributed to high ambipolar charge mobilities and photoluminescent quantum yield. TPTQ-F showed excellent performance in solution-processed multilayered OLET devices with an external quantum efficiency (EQE) of 5.3%.

机译：缺乏开发出强荧光和高间芯片电荷迁移率的高性能聚合物材料的设计原理限制了它们在有机发光晶体管（OLETS），电泵的有机激光器和其他先进电子设备中的性能。已经开发了通过弱受体（TPTQ或TPTI）和弱供体（芴（F）或咔唑（C））共聚的一系列半晶体聚合物用于发光和电荷输送性能。发现，在新共聚物TPTQ-F中获得的平面性，高结晶度和在中间体聚集中的细腻平衡有助于嗜好的胚射迁移率和光致发光量子产率。 TPTQ-F在溶液处理的多层OLET器件中表现出优异的性能，其外部量子效率（EQE）为5.3％。

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来源
《Journal of the American Chemical Society》 |2021年第13期|5239-5246|共8页
作者
Dafei Yuan; Mohammad A. Awais; Valerii Sharapov; Xunshan Liu; Andriy Neshchadin; Wei Chen; Luping Yu;
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作者单位

Department of Chemistry and the James Franck Institute The University of Chicago Chicago Illinois 60637 United States;

Department of Chemistry and the James Franck Institute The University of Chicago Chicago Illinois 60637 United States;

Department of Chemistry and the James Franck Institute The University of Chicago Chicago Illinois 60637 United States;

Department of Chemistry and the James Franck Institute The University of Chicago Chicago Illinois 60637 United States;

Department of Chemistry and the James Franck Institute The University of Chicago Chicago Illinois 60637 United States;

Materials Science Division and Center for Molecular Engineering Argonne National Laboratory Lemont Illinois 60439 United States;

Department of Chemistry and the James Franck Institute The University of Chicago Chicago Illinois 60637 United States;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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正文语种 eng
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Synergy between Photoluminescence and Charge Transport Achieved by Finely Tuning Polymeric Backbones for Efficient Light-Emitting Transistor

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