Solution-processable bipolar hosts based on triphenylamine and oxadiazole derivatives: Synthesis and application in phosphorescent light-emitting diodes

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• 作者：Yu-Ru Pu ; Yun Chen ; ^{yunchen@mail.ncku.edu.tw" class="auth_mail" title="E-mail the corresponding author}
• 关键词：Bipolar host ; Phosphorescent OLEDs ; Triphenylamine ; Oxadiazole
• 刊名：Journal of Luminescence
• 出版年：2016
• 出版时间：February 2016
• 年：2016
• 卷：170
• 期：part_P1
• 页码：127-135
• 全文大小：5329 K

文摘

Host material with enhanced and balanced charge injection/transport is essential for efficient phosphorescent organic light-emitting diodes (PhOLEDs). We synthesized two new bipolar hosts, TPA-2OXD and TPA-3OXD, composed of hole-transporting triphenylamine core linked with two and three electron-transporting aromatic 1,3,4-oxadiazole derivatives respectively, aiming to enhance and balance charge injection and transport. They revealed good thermal stability (T_d>300 °C, T_g>100 °C) and homogeneous films were readily obtained by spin-coating process (roughness<0.9 nm). Multilayer PhOLEDs (ITO/PEDOT:PSS/EML/BCP/LiF/Al) have been successfully fabricated using Ir(ppy)₃-doped hosts as emitting layer (EML). The maximum luminance and maximum current efficiency of TPA-2OXD-based device were 8190 cd/m² and 4.50 cd/A, much higher than 6299 cd/m² and 1.53 cd/A respectively of TPA-3OXD-based one. This has been ascribed to more appropriate ratio (2/1) of electron-/hole-transporting moieties in TPA-2OXD. The TPA-2OXD also excels conventional host PVK in terms of device performance (5774 cd/m², 1.91 cd/A). Moreover, the turn-on voltages of TPA-2OXD- and TPA-3OXD-based devices were 4.3 V and 5.5 V respectively, much lower than 7.4 V of PVK-based one. Current results indicate that the bipolar TPA-2OXD and TPA-3OXD are promising host materials capable of being fabricated by wet processes.