非对称双极性Ir(III)配合物磷光分子及其聚集诱导磷光和电致发光性能研究
收稿日期: 2024-03-30
修回日期: 2024-05-22
网络出版日期: 2024-07-15
基金资助
国家自然科学基金(52161145411); 国家自然科学基金(21875179); 国家自然科学基金(22175137); 国家自然科学基金(21602170); 国家自然科学基金(51803163)
Unsymmetric Phosphorescent Ir(III) Complexes with Ambipolar Features and Investigation for Both Aggregation-Induced Phosphorescent Emission and Electroluminescent Properties
Received date: 2024-03-30
Revised date: 2024-05-22
Online published: 2024-07-15
Supported by
National Natural Science Foundation of China(52161145411); National Natural Science Foundation of China(21875179); National Natural Science Foundation of China(22175137); National Natural Science Foundation of China(21602170); National Natural Science Foundation of China(51803163)
同时以功能化的2-苯基吡啶(ppy)类配体和2-乙烯吡啶(vpy)类配体设计合成了两个非对称Ir(III)配合物磷光分子, 并对其光电性能进行了详细表征. 光物理研究表明, 这两个非对称Ir(III)配合物磷光分子具有两种发光激发态产生磷光发射, 并且能够表现出明显的聚集诱导/增强磷光发光行为. 电化学研究结果表明, 功能基团的引入可使非对称Ir(III)配合物磷光分子表现出双极性. 此外, 它们还能表现出较好的电致发光性能, 电致发光器件启亮电压(Vturn-on)小于3 V, 最大亮度Lmax为11380 cd•m-2、最大外量子效率ηext为5.3%、最大电流效率ηL为12.9 cd•A-1及最大功率效率ηP为13.6 lm•W-1. 相关研究结果为新型聚集诱导磷光电致发光材料的设计合成提供了有价值的参考.
关键词: 非对称结构; Ir(III)磷光配合物; 聚集诱导磷光; 双极性; 电致发光
陈姿仪 , 刘思琪 , 冯钊 , 钟道昆 , 杨晓龙 , 孙源慧 , 徐先彬 , 冯震 , 岳岭 , 周桂江 . 非对称双极性Ir(III)配合物磷光分子及其聚集诱导磷光和电致发光性能研究[J]. 有机化学, 2024 , 44(8) : 2563 -2570 . DOI: 10.6023/cjoc202403052
Two unsymmetric Ir(III) phosphorescent complexes have been prepared with functionalized both 2-phenyl- pyridine (ppy)- and 2-vinylpyridine (vpy)-type ligands to investigate their optoelectronic properties. Photophysical results show that there are two kinds of radiative excited states contributing their phosphorescent emission. In addition, the unsymmetric Ir(III) phosphorescent complexes can exhibit aggregation-induced/enhanced phosphorescent emission behavior. Electrochemical results indicate that introducing functional group can confer ambipolar features to the unsymmetric Ir(III) phosphorescent complexes. In addition, they can show decent electroluminescent ability with turn-on voltage (Vturn-on) less than 3.0 V, maximum luminescence (Lmax) of 11380 cd•m-2, maximum external quantum efficiency (ηext) of 5.3%, maximum current efficiency (ηL) of 12.9 cd•A-1 and maximum power efficiency (ηP) of 13.6 lm•W-1. All these results can provide valuable information for design and synthesis of new electroluminescent materials with aggregation-induced phosphorescent emission ability.
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