Anthraquinone-Based Intramolecular Charge-Transfer Compounds: Computational Molecular Design, Thermally Activated Delayed Fluorescence, and Highly Efficient Red Electroluminescence

Zhang, Qisheng; Kuwabara, Hirokazu; Potscavage, William J.; Huang, Shuping; Hatae, Yasuhiro; Shibata, Takumi; Adachi, Chihaya

doi:10.1021/ja510144h

articleJournal of the American Chemical SocietyDec 3, 2014Closed access

Anthraquinone-Based Intramolecular Charge-Transfer Compounds: Computational Molecular Design, Thermally Activated Delayed Fluorescence, and Highly Efficient Red Electroluminescence

QZQisheng Zhang HKHirokazu Kuwabara WJWilliam J. Potscavage SHShuping Huang YHYasuhiro Hatae

Kyushu University · Nippon Kayaku (Japan) · +1 more institution

PubMed

Indexed incrossrefpubmed

Abstract

Red fluorescent molecules suffer from large, non-radiative internal conversion rates (k(IC)) governed by the energy gap law. To design efficient red thermally activated delayed fluorescence (TADF) emitters for organic light-emitting diodes (OLEDs), a large fluorescence rate (k(F)) as well as a small energy difference between the lowest singlet and triplet excited states (ΔE(ST)) is necessary. Herein, we demonstrated that increasing the distance between donor (D) and acceptor (A) in intramolecular-charge-transfer molecules is a promising strategy for simultaneously achieving small ΔE(ST) and large k(F). Four D-Ph-A-Ph-D-type molecules with an anthraquinone acceptor, phenyl (Ph) bridge, and various donors were…

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Topics & keywords

Topics

Keywords

Chemistry
Intramolecular force
Electroluminescence
Quantum yield
Acceptor
Fluorescence
Singlet state
Photochemistry

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Affordable and clean energy

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