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基于新型可交联小分子空穴传输材料的喷墨打印高效多层量子点发光二极管

Inkjet-Printed High-Efficiency Multilayer QLEDs Based on a Novel Crosslinkable Small-Molecule Hole Transport Material.

作者信息

Xie Liming, Xiong Xueying, Chang Qiaowen, Chen Xiaolian, Wei Changting, Li Xia, Zhang Meng, Su Wenming, Cui Zheng

机构信息

Printable Electronics Research Center, Suzhou Institute of Nano-Tech and Nano-Bionics, Chinese Academy of Sciences, Suzhou, 215123, P. R. China.

School of Nano-Tech and Nano-Bionics, University of Science and Technology of China, Hefei, 230026, P. R. China.

出版信息

Small. 2019 Apr;15(16):e1900111. doi: 10.1002/smll.201900111. Epub 2019 Mar 18.

Abstract

Quantum dots light-emitting diodes (QLEDs) have attracted much interest owing to their compatibility with low-cost inkjet printing technology and potential for use in large-area full-color pixelated display. However, it is challenging to fabricate high efficiency inkjet-printed QLEDs because of the coffee ring effects and inferior resistance to solvents from the underlying polymer film during the inkjet printing process. In this study, a novel crosslinkable hole transport material, 4,4'-bis(3-vinyl-9H-carbazol-9-yl)-1,1'-biphenyl (CBP-V) which is small-molecule based, is synthesized and investigated for inkjet printing of QLEDs. The resulting CBP-V film after thermal curing exhibits excellent solvent resistance properties without any initiators. An added advantage is that the crosslinked CBP-V film has a sufficiently low highest occupied molecular orbital energy level (≈-6.2 eV), high film compactness, and high hole mobility, which can thus promote the hole injection into quantum dots (QDs) and improve the charge carrier balance within the QD emitting layers. A red QLED is successfully fabricated by inkjet printing a CBP-V and QDs bilayer. Maximum external quantum efficiency of 11.6% is achieved, which is 92% of a reference spin-coated QLED (12.6%). This is the first report of such high-efficiency inkjet-printed multilayer QLEDs and demonstrates a unique and effective approach to inkjet printing fabrication of high-performance QLEDs.

摘要

量子点发光二极管(QLED)因其与低成本喷墨印刷技术的兼容性以及在大面积全彩像素化显示中的应用潜力而备受关注。然而,由于在喷墨印刷过程中存在咖啡环效应以及底层聚合物膜对溶剂的耐受性较差,制造高效喷墨印刷QLED具有挑战性。在本研究中,合成了一种新型的可交联空穴传输材料,即基于小分子的4,4'-双(3-乙烯基-9H-咔唑-9-基)-1,1'-联苯(CBP-V),并对其用于QLED的喷墨印刷进行了研究。热固化后得到的CBP-V膜在没有任何引发剂的情况下表现出优异的耐溶剂性能。一个额外的优点是,交联的CBP-V膜具有足够低的最高占据分子轨道能级(≈ -6.2 eV)、高膜致密性和高空穴迁移率,因此可以促进空穴注入量子点(QD)并改善QD发光层内的载流子平衡。通过喷墨印刷CBP-V和QD双层成功制备了红色QLED。实现了11.6%的最大外量子效率,这是参考旋涂QLED(12.6%)的92%。这是关于如此高效的喷墨印刷多层QLED的首次报道,并展示了一种独特且有效的高性能QLED喷墨印刷制造方法。

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