Highly efficient organic light-emitting diodes and light-emitting electrochemical cells employing multiresonant thermally activated delayed fluorescent emitters with bulky donor or acceptor peripheral groups

IF 13.9 Q1 CHEMISTRY, MULTIDISCIPLINARY
Jingxiang Wang, Hassan Hafeez, Shi Tang, Tomas Matulaitis, Ludvig Edman, Ifor D. W. Samuel, Eli Zysman-Colman
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Abstract

Multiresonant thermally activated delayed fluorescence (MR-TADF) emitters have been the focus of extensive design efforts as they are recognized to show bright, narrowband emission, which makes them very appealing for display applications. However, the planar geometry and relatively large singlet–triplet energy gap lead to, respectively, severe aggregation-caused quenching (ACQ) and slow reverse intersystem crossing (RISC). Here, a design strategy is proposed to address both issues. Two MR-TADF emitters triphenylphosphine oxide (TPPO)-tBu-DiKTa and triphenylamine (TPA)-tBu-DiKTa have been synthesized. Twisted ortho-substituted groups help increase the intermolecular distance and largely suppress the ACQ. In addition, the contributions from intermolecular charge transfer states in the case of TPA-tBu-DiKTa help to accelerate RISC. The organic light-emitting diodes (OLEDs) with TPPO-tBu-DiKTa and TPA-tBu-DiKTa exhibit high maximum external quantum efficiencies (EQEmax) of 24.4% and 31.0%, respectively. Notably, the device with 25 wt% TPA-tBu-DiKTa showed both high EQEmax of 28.0% and reduced efficiency roll-off (19.9% EQE at 1000 cd m−2) compared to the device with 5 wt% emitter (31.0% EQEmax and 11.0% EQE at 1000 cd m−2). The new emitters were also introduced into single-layer light-emitting electrochemical cells (LECs), equipped with air-stable electrodes. The LEC containing TPA-tBu-DiKTa dispersed at 0.5 wt% in a matrix comprising a mobility-balanced blend-host and an ionic liquid electrolyte delivered blue luminance with an EQEmax of 2.6% at 425 cd m−2. The high efficiencies of the OLEDs and LECs with TPA-tBu-DiKTa illustrate the potential for improving device performance when the DiKTa core is decorated with twisted bulky donors.

Abstract Image

Abstract Image

高效有机发光二极管和发光电化学电池,采用多谐振热激活延迟荧光发射器,外围有大体积的供体或受体基团
多共振热激活延迟荧光(MR-TADF)发射器一直是广泛设计工作的重点,因为它们被公认为能显示明亮的窄带发射,这使它们在显示应用中非常具有吸引力。然而,平面几何形状和相对较大的单三重能隙分别导致了严重的聚集淬灭(ACQ)和缓慢的反向系统间交叉(RISC)。这里提出了一种设计策略来解决这两个问题。我们合成了两种 MR-TADF 发射器:三苯基氧化膦 (TPPO)-tBu-DiKTa 和三苯胺 (TPA)-tBu-DiKTa。扭曲的正交取代基团有助于增加分子间距离,并在很大程度上抑制了 ACQ。此外,TPA-tBu-DiKTa 分子间电荷转移态的贡献有助于加速 RISC。使用 TPPO-tBu-DiKTa 和 TPA-tBu-DiKTa 的有机发光二极管(OLED)的最大外部量子效率(EQEmax)分别高达 24.4% 和 31.0%。值得注意的是,与使用 5 wt% 发射器的器件(31.0% EQEmax 和 11.0% EQE at 1000 cd m-2)相比,使用 25 wt% TPA-tBu-DiKTa 的器件不仅显示出 28.0% 的高 EQEmax,而且降低了效率衰减(1000 cd m-2 时的 EQE 为 19.9%)。新的发射器还被引入配备了空气稳定电极的单层发光电化学电池(LEC)中。LEC 中的 TPA-tBu-DiKTa 含量为 0.5 wt%,分散在由流动性平衡混合基质和离子液体电解质组成的基质中,在 425 cd m-2 时可发出 EQEmax 为 2.6% 的蓝色亮度。使用 TPA-tBu-DiKTa 的 OLED 和 LEC 的高效率表明,当 DiKTa 内核装饰有扭曲的大块供体时,具有提高器件性能的潜力。
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
CiteScore
17.40
自引率
0.00%
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审稿时长
7 weeks
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