【論文関連】城戸・笹部・千葉研究室 M2 荒井綾斗さんと笹部久宏准教授のリン光有機EL長寿命化に資するπ共役拡張カルバゾールホスト誘導体の論文が Wiley の Chem. Eur. J (IF: 4.857) に受理されました。

城戸・笹部・千葉研究室 M2 荒井綾斗さんと笹部久宏准教授の緑色リン光有機ELの高効率・長寿命化に資するベンゾチオフェン拡張カルバゾールホスト誘導体に関する「π-Extended carbazole derivatives as host materials for highly efficient and long-life green phosphorescent OLEDs」と題する論文が Wiely の Chemistry A European Journal (IF: 4.857) に受理されました。

 

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Title: π-Extended carbazole derivatives as host materials for highly efficient and long-life green phosphorescent OLEDs
By Ayato Arai, Hisahiro Sasabe*, Kohei Nakao, Yuki Masuda, and Junji Kido*, Chem. Eur. J., 2020, accepted.

Abstract: High-performance OLEDs that use phosphorescent and/or thermally activated delayed fluorescence emitters are capable of realizing 100% electron-to-photon conversion. The host materials in these OLEDs play crucial roles in determining OLED performance. Carbazole derivatives are frequently used as host materials, among which 3,3-di(9H-carbazol-9- yl)biphenyl (mCBP) is often used for lifetime testing in scientific studies. In this study, we expanded the pai-conjugation of the carbazole unit to enhance OLED lifetime by designing and developing two benzothienocarbazole (BTCz)-based host materials, namely m1BTCBP and m4BTCBP. Among these host materials, m1BTCBP formed a highly efficient Ir(ppy)3-based OLED with an operational luminescence half-life (LT50) of over 300 h at an initial luminance of approximately 12000 cd m–2 (current density: 25 mA cm–2). LT50 at 1000 cd cm-2 is estimated to be about 23000 h. This performance is clearly greater than that of mCBP-based OLEDs (LT50 = ca. 8500 h).

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📚 城戸・笹部・千葉研究室HP >> https://oled.yz.yamagata-u.ac.jp/view.cgi?p=383

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