脱羧
化学
环丙烷化
火用反应
催化作用
光化学
电子转移
氧化脱羧
质子耦合电子转移
卟啉
组合化学
舍瓦内拉
电泳剂
卡宾
密度泛函理论
有机化学
脱碳
反应性(心理学)
芳基
钌
羧化
羧酸盐
羧酸
取代基
反应机理
转移加氢
单重态
光催化
作者
Kamal Bhatt,Hariharan Mahendran,Tamal Das,Saurav Joshi,Joshua D. Crow,Ion Ghiviriga,Jennifer S. Hirschi,Daniel Seidel
标识
DOI:10.1021/acscatal.6c00789
摘要
A photoredox-neutral approach to cyclopropanes from in situ generated non-stabilized carbenes via a new acridine-iron dual catalytic system is reported. This strategy merges the oxidative decarboxylation of bench-stable carboxylic acids with the reduction of an iron porphyrin under mild photochemical conditions. Bespoke acridine photocatalysts efficiently shuttle electrons between carboxylic acids and iron complexes, obviating the need for a sacrificial reductant. Mechanistic studies reveal that, contrary to prevailing assumptions, decarboxylation does not proceed through a concerted PCET pathway but instead via a stepwise proton transfer followed by a highly exergonic electron transfer and decarboxylation event. Density functional theory calculations further support the formation of a key Fe(IV)-carbenoid intermediate, which engages alkenes through a stepwise, radical-type carbene transfer mechanism.
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