化学
路易斯酸
键裂
催化作用
光催化
劈理(地质)
组合化学
光化学
有机化学
药物化学
光催化
断裂(地质)
工程类
岩土工程
作者
Kazuhiro Aida,Marina Hirao,Tsuyoshi Saitoh,Takashi Yamamoto,Yasuaki Einaga,Eisuke Ota,Junichiro Yamaguchi
摘要
Cleavage of inert C-N bonds in unstrained azacycles such as pyrrolidine remains a formidable challenge in synthetic chemistry. To address this, we introduce an effective strategy for the reductive cleavage of the C-N bond in N-benzoyl pyrrolidine, leveraging a combination of Lewis acid and photoredox catalysis. This method involves single-electron transfer to the amide, followed by site-selective cleavage at the C2-N bond. Cyclic voltammetry and NMR studies demonstrated that the Lewis acid is crucial for promoting the single-electron transfer from the photoredox catalyst to the amide carbonyl group. This protocol is widely applicable to various pyrrolidine-containing molecules and enables inert C-N bond cleavage including C-C bond formation via intermolecular radical addition. Furthermore, the current protocol successfully converts pyrrolidines to aziridines, γ-lactones, and tetrahydrofurans, showcasing its potential of the inert C-N bond cleavage for expanding synthetic strategies.
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