期刊
APPLIED PHYSICS EXPRESS
卷 16, 期 1, 页码 -出版社
IOP Publishing Ltd
DOI: 10.35848/1882-0786/acb3ad
关键词
organic light-emitting diodes; thermally activated delayed fluorescence; reverse intersystem crossing; heavy-atom effect; spin-orbit coupling
Accelerating reverse intersystem crossing (RISC) without sacrificing fast radiative decay is effective in suppressing efficiency roll-off (eRO) in thermally activated delayed fluorescence (TADF)-based organic light-emitting diodes. We here report a TADF emitter, CC-TXO-I, combining a bicarbazole donor (CC) and a sulfur-containing acceptor (TXO). We realized very large rate constants of RISC (k (RISC)s) of similar to 10(7) s(-1). Both k (RISC)s and rate constants of radiative decay of CC-TXO-I increased with increasing doping concentration, resulting in improved eROs.
Accelerating reverse intersystem crossing (RISC) without sacrificing fast radiative decay is effective in suppressing efficiency roll-off (eRO) in thermally activated delayed fluorescence (TADF)-based organic light-emitting diodes. We here report a TADF emitter, CC-TXO-I, combining a bicarbazole donor (CC) and a sulfur-containing acceptor (TXO). The CC is used to accelerate radiative decay via moderate donor-acceptor torsion angle, and the TXO is expected to provide fast RISC by the heavy-atom effect. We realized very large rate constants of RISC (k (RISC)s) of similar to 10(7) s(-1). Both k (RISC)s and rate constants of radiative decay of CC-TXO-I increased with increasing doping concentration, resulting in improved eROs.
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