三氟甲基化
光催化
化学
光化学
催化循环
催化作用
猝灭(荧光)
闪光光解
三氟甲基
还原消去
组合化学
氧化还原
光催化
有机化学
反应速率常数
动力学
荧光
烷基
物理
量子力学
作者
Won Joon Choi,Sungkyu Choi,Kei Ohkubo,Shunichi Fukuzumi,Eun Jin Cho,Youngmin You
出处
期刊:Chemical Science
[Royal Society of Chemistry]
日期:2014-11-24
卷期号:6 (2): 1454-1464
被引量:138
摘要
I under visible light irradiation. The high excited-state redox potentials of the complexes permitted oxidative quenching during the cycle, whereas reductive quenching was forbidden. Spectroscopic measurements, including time-resolved photoluminescence and laser flash photolysis, were performed to identify the catalytic intermediates and directly monitor their conversions. The mechanistic studies provide compelling evidence that the catalytic cycle selects the oxidative quenching pathway. We also found that electron transfer during each step of the cycle strictly adhered to the Marcus normal region behaviors. The results are fully supported by additional experiments, including photoinduced ESR spectroscopy, spectroelectrochemical measurements, and quantum chemical calculations based on time-dependent density functional theory. Finally, quantum yields exceeding 100% strongly suggest that radical propagation significantly contributes to the catalytic trifluoromethylation reaction. These findings establish molecular strategies for designing trifluoromethyl sources and catalysts in an effort to enhance catalysis performance.
科研通智能强力驱动
Strongly Powered by AbleSci AI