A dicarbazole–triazine hybrid bipolar host material for highly efficient green phosphorescent OLEDs

• Published in: Journal of materials chemistry Vol. 22; no. 9; pp. 3832 - 3838
• Main Authors: Chang, Chih-Hao, Kuo, Ming-Cheng, Lin, Wei-Chieh, Chen, Yu-Ting, Wong, Ken-Tsung, Chou, Shu-Hua, Mondal, Ejabul, Kwong, Raymond C., Xia, Sean, Nakagawa, Tetsuya, Adachi, Chihaya
• Format: Journal Article
• Language: English
• Published: 01.01.2012
• Subjects: Confinement; CZT; Devices; Emittance; Energy use; Excitons; Physical properties
• ISSN: 0959-9428; 1364-5501
• DOI: 10.1039/c2jm14686j

A novel bipolar host material 9-(4,6-diphenyl-1,3,5-triazin-2-yl)-9'-phenyl-3,3'-bi carbazole (CzT) comprising a dicarbazole donor linking to an electron deficient 1,3,5-triazine acceptor was synthesized and characterized. The molecular design of CzT allows the spatial separation of HOMO and LUMO on the donor and acceptor moieties, respectively, giving sufficient triplet energy (2.67 eV) together with promising physical properties and morphological stability (T sub(g) = 134 degree C). This tailor-made material was used as a host for an efficient yellowish-green iridium complex, bis(o-tolylpyrimidinato-N,C super(2)')Ir(iii)acetylacetonat e [(TPm) sub(2)Ir(acac)]; the as-fabricated phosphorescent OLEDs (PHOLEDs) demonstrated high performance, with maximum efficiencies of 20.0% (75.7 cd A super(-1) and 71.3 lm W super(-1)) and 20.1% (76.3 cd A super(-1) and 72.7 lm W super(-1)) achieved in trilayer and bilayer device architectures, respectively. The efficiency of the trilayer device can sustain similar to 20% over a wide brightness range from 10 super(2) to 10 super(3) cd m super(-2) due to the more effective confinement of emissive excitons within the emitting layer.