题目: | Efficient, narrow-band, and stable electroluminescence from organoboron-nitrogen-carbonyl emitter |
作者: | Ying-Chun Cheng1#, Xun Tang2#, Kai Wang1,3*, Xin Xiong1, Xiao-Chun Fan1, Shulin Luo1, Rajat Walia1, Yue Xie1, Tao Zhang1, Dandan Zhang1, Jia Yu1,4, Xian-Kai Chen1*, Chihaya Adachi2,5*, and Xiao-Hong Zhang1,4* |
摘要: | Organic light-emitting diodes (OLEDs) exploiting simple binary emissive layers (EMLs) blending only emitters and hosts have natural advantages in low-cost commercialization. However, previously reported OLEDs based on binary EMLs hardly simultaneously achieved desired comprehensive performances, e.g., high efficiency, low efficiency roll-off, narrow emission bands, and high operation stability. Here, we report a molecular-design strategy. Such a strategy leads to a fast reverse intersystem crossing rate in our designed emitter h-BNCO-1 of 1.79×105s−1. An OLED exploiting a binary EML with h-BNCO-1 achieves ultrapure emission, a maximum external quantum efficiency of over 40% and a mild roll-off of 14% at 1000cd·m−2. Moreover, h-BNCO-1 also exhibits promising operational stability in an alternative OLED exploiting a compact binary EML (the lifetime reaching 95% of the initial luminance at 1000cdm−2 is ~ 137h). Here, our work has thus provided a molecular-design strategy for OLEDs with promising comprehensive performance. |
影响因子: | 17.694 |
分区情况: | 一区 |
