A symmetrical carbazole/benzonitrile-based high triplet energy bipolar host designed by a para-linkage strategy for efficient blue and green phosphorescent organic light-emitting diodes

Based on a para-linkage concept, a symmetrical carbazole-benzonitrile derivative of 4-(9H-carbazol-9-yl)-3,5-diphenyl-2,6-difluoronitrile (CzPhFBN) was designed and prepared as a host for phosphorescent organic light-emitting diodes (PhOLEDs). In the CzPhFBN molecular, a cyano (CN) unit and a carbazole (Cz) unit were attached to the central phenyl ring at the para positions. Simultaneously, the Cz group was surrounded by two phenyl units to increase structure distortion for high triplet energy and CN unit was surrounded by two F units to improve electron transporting behavior. The photophysical properties and carrier transport behavior of CzPhFBN were investigated. The results demonstrated that CzPhFBN offered a high triplet energy of exceeding 3.0 eV and bipolar carrier transporting property. By incorporating CzPhFBN as the host, the blue FIrpic-and green Ir(ppy)3- based PhOLEDs with a common device configuration delivered the maximum efficiencies of 11.1%/19.7 cd A-1/ 12.1 lm W-1 and/13.1%/43.6 cd A-1/28.6 lm W-1, respectively. These results indicate that this study provides a potential design strategy of high triplet energy bipolar host materials with a simple and elegant structure.

Automated summary

A symmetrical carbazole-benzonitrile derivative, CzPhFBN, was designed as a host for phosphorescent organic light-emitting diodes (PhOLEDs) based on a para-linkage concept. The CzPhFBN molecule consisted of a cyano (CN) unit and a carbazole (Cz) unit attached to the central phenyl ring at the para positions. The results showed that CzPhFBN had a high triplet energy of over 3.0 eV and exhibited bipolar carrier transporting property.