盘状液晶
材料科学
中间相
顺势排列
有机发光二极管
液晶
光电子学
中胚层
基质(水族馆)
柱状相
电致发光
跃迁偶极矩
偶极子
兴奋剂
掺杂剂
旋涂
各向异性
偏振器
薄膜
纳米结构
光学
结晶学
超分子化学
纳米技术
作者
Joydip De,Abhishek Kumar Gupta,Džiugas Litvinas,Francisco Tenopala‐Carmona,Matthias Lehmann,Malte C. Gather,Eli Zysman‐Colman
标识
DOI:10.26434/chemrxiv-2025-m7x1t
摘要
Controlling the supramolecular alignment of columnar mesogens offers a strategy to optimize charge transport and orientation of the transition dipole moment of emissive solution-processed films, ultimately enabling the fabrication of more efficient solution-processable OLEDs. Here, we report the development of multi-resonant thermally activated delayed fluorescent (MR-TADF) discotic liquid crystals (DLCs) containing a diindolocarbazole emissive core that is deco-rated with four mesogenic groups that are either branched (DICz-DMOC) or linear (DICz-DOD) in nature. DICz-DMOC adopts a columnar mesophase at room temperature, where the neat film shows homeotropic alignment to the substrate surface. Emission is broad and partially quenched as neat films due to the formation of aggregates, while in toluene and as 10 wt% doped films in mCP, emission originates mainly from monomolecular species. The DLCs align horizontally, which also orients the transition dipole moment of the emitters preferentially horizontally, re-flected in an anisotropy factor, a, of 0.22 for the solution-processed neat films. Solution-processed OLEDs (SP-OLEDs) containing DICz-DMOC as the emitter showed a maximum ex-ternal quantum efficiency (EQEmax) of 10.0% in doped devices and 5.3% in non-doped devices, representing some of the highest device efficiencies using emitters bearing mesogenic groups.
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