磷光
系统间交叉
单重态
光化学
猝灭(荧光)
电致发光
量子效率
发光
激子
材料科学
光致发光
咔唑
荧光
激发态
化学
光电子学
原子物理学
纳米技术
物理
光学
量子力学
图层(电子)
作者
J. Niu,Fei‐Fei Gao,Ye Wang,Wu Lu,Jing Zhang,Jingyang He,X. C. Lou,Yuanxin Ma,Chunbo Duan,Chunmiao Han,Hui Xu
出处
期刊:Angewandte Chemie
[Wiley]
日期:2025-05-06
卷期号:64 (28): e202508667-e202508667
被引量:5
标识
DOI:10.1002/anie.202508667
摘要
Luminescent materials have important applications in biology, medicine, catalysis, energy, information technology, and so on. However, to suppress quenching and improve efficiencies, how to balance singlet and triplet radiations for efficient dual emission composed of equalized thermally activated delayed fluorescence (TADF) and phosphorescence remains a formidable challenge. Here, we report that based on a rigid skeleton of triphosphine CuI complex, modification with carbazole donors results in high-lying ligand-centered charge transfer states, which provide additional channels for accurately optimizing the singlet-triplet ratios. We achieve equalized dual emissions containing 53% TADF and 47% phosphorescence, ∼100% photo- and electro-luminescence quantum efficiencies and record-high external quantum efficiencies of ∼30% for pure-yellow organic light-emitting diodes. Photophysical and exciton kinetics analyses indicate the incorporation of high-lying ligand-centered triplet states into dual-emissive electroluminescence is based on energy-level matching with the first triplet states of host matrixes.
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