Thermally cross-linkable spirobifluorene-core-based hole transport layer with high solvent-resistivity for solution processible OLEDs

有机发光二极管 材料科学 溶解过程 制作 光电子学 热稳定性 图层(电子) 二极管 聚合物 溶剂 电阻率和电导率 化学工程 纳米技术 复合材料 有机化学 化学 医学 替代医学 病理 工程类 电气工程
作者
Young‐Eun Kim,Ara Ko,Ho Jin Jang,Sung Joon Yoon,Seung Hun Roh,Dong Won Lee,Jun Yeob Lee,Dong Jin Kim,Jung Kyu Kim,Kyoung Soo Yook
出处
期刊:Dyes and Pigments [Elsevier BV]
卷期号:187: 109122-109122 被引量:12
标识
DOI:10.1016/j.dyepig.2020.109122
摘要

The fabrication of organic light-emitting diodes (OLEDs) composed of multi-layered structure through a solution-based process suffers from the dissolution of the preformed lower parts during the coating of upper layers. To prevent this problem during the solution process, a promising approach of introducing a cross-linkable layer with a high solvent-resistivity has been proposed. Herein, thermally cross-linkable spirobifluorene-core-incorporated hole transport layers (HTLs) with a cross-linking temperature of 180 °C are designed for solution-processible OLEDs composed of multi-layered structures. The enhanced morphology stability and solvent-resistive property of the synthesized HTLs are evaluated through a rinsing-test with an organic solvent used for the emitting layer. Considering the charge transport property of HTLs in OLEDs, the appropriate energy level and triplet energy values of the synthesized HTLs promote the efficient cascade hole migration. Consequently, the OLED composed of thermally cross-linkable HTL shows higher quantum efficiency (QE) of 16.5% and lower operation voltage of 5.1 V at 1000 cd/m2, compared to that composed of a commercialized polymer, poly (9-vinylcarbazole) (PVK). Thus, in this study, the feasibility of the potential application of thermally cross-linkable HTL with the spirobifluorene-core-units as charge transport layers for solution-based optoelectronic devices composed of multi-layered structures has been verified.

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