Impact of Donor and Acceptor Modification on TADF and Roll‐Off Behaviors in Solution Processed OLED

IF 8 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Hee Tae Yang, Ye Ji Hyeon, Thi Na Le, Ji Eun Lee, Yun‐Hi Kim, Min Chul Suh
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Abstract

Up‐conversion of triplet into singlet exciton in the emitting layer is believed to be one of the ways that thermally activated delayed fluorescent (TADF) materials may employ to reduce triplet exciton density hence preventing device quenching by triplet excitons. Yet, two donor‐acceptor type molecules; 5‐(4‐(4,6‐diphenyl‐1,3,5‐triazin‐2‐yl)phenyl)‐12‐(3‐(triphenylsilyl) phenyl)‐5,12‐dihydroindolo[3,2‐a]carbazole (SiPhCzTrz) and 5‐phenyl‐12‐(4‐(4‐phenyl‐6‐(3‐(triphenylsilyl) phenyl)‐1,3,5‐triazin‐2‐yl)pheny‐l)‐5,12‐dihydroindolo [3,2‐a]carbazole (SiTrzPhCz), which exhibited different TADF properties depending on the relative positions of their electron donor unit (PhCz) and electron acceptor unit (Trz), show opposite behaviors. These materials are used as sensitizer in phosphorescent solution‐processed organic light emitting diodes (s‐OLEDs) showing moderately high current efficiencies of 19.3 and 20 cd/A, respectively. SiTrzPhCz exhibits stronger TADF properties compared to SiPhCzTrz; however, these stronger TADF characteristics lead to a more pronounced efficiency roll‐off, mainly due to the longer residence time of excitons in SiTrzPhCz, leading to exciton quenching. In contrast, due to their twisted structures, the efficiency roll‐off is efficiently suppressed, particularly for SiTrzPhCz, when both materials are used as hosts. Their twisted structures promote aggregate‐induced emission and prevent aggregation‐caused quenching. Further analysis of exciton dynamics reveals faster decay rate for both singlet and triplet densities in SiPhCzTrz compared to SiTrzPhCz, indicated by its higher fast prompt emission, kFRET and knrT.

Abstract Image

供体和受体修饰对溶液加工型有机发光二极管中 TADF 和滚降行为的影响
在发光层中,三重激子向上转化为单重激子被认为是热激活延迟荧光(TADF)材料降低三重激子密度从而防止器件被三重激子淬灭的方法之一。然而,有两种供体-受体型分子;5-(4-(4,6-二苯基-1,3,5-三嗪-2-基)苯基)-12-(3-(三苯基硅基)苯基)-5,12-二氢吲哚并[3,2-a]咔唑(SiPhCzTrz)和 5-苯基-12-(4-(4-苯基-6-(3-(三苯基硅基)苯基)-1,3、和 5-苯基-12-(4-苯基-6-(3-(三苯基硅烷基)苯基)-1,3,5-三嗪-2-基)苯基-l)-5,12-二氢吲哚 [3,2-a]咔唑(SiTrzPhCz)的 TADF 特性取决于它们的电子供体单元(PhCz)和电子受体单元(Trz)的相对位置,它们表现出相反的行为。这些材料被用作磷光溶液处理有机发光二极管(s-OLED)的敏化剂,电流效率分别达到 19.3 和 20 cd/A。与 SiPhCzTrz 相比,SiTrzPhCz 表现出更强的 TADF 特性;然而,这些更强的 TADF 特性会导致更明显的效率衰减,这主要是由于激子在 SiTrzPhCz 中的停留时间更长,从而导致激子淬灭。相反,由于它们的扭曲结构,当这两种材料都用作宿主时,效率衰减会被有效抑制,尤其是 SiTrzPhCz。它们的扭曲结构促进了聚集诱导的发射,并防止了聚集引起的淬灭。对激子动力学的进一步分析表明,与 SiTrzPhCz 相比,SiPhCzTrz 中单线和三线密度的衰减速度更快,这体现在其更高的快速瞬时发射、kFRET 和 knrT 上。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Advanced Optical Materials
Advanced Optical Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-OPTICS
CiteScore
13.70
自引率
6.70%
发文量
883
审稿时长
1.5 months
期刊介绍: Advanced Optical Materials, part of the esteemed Advanced portfolio, is a unique materials science journal concentrating on all facets of light-matter interactions. For over a decade, it has been the preferred optical materials journal for significant discoveries in photonics, plasmonics, metamaterials, and more. The Advanced portfolio from Wiley is a collection of globally respected, high-impact journals that disseminate the best science from established and emerging researchers, aiding them in fulfilling their mission and amplifying the reach of their scientific discoveries.
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