化学
乙烯基
均分解
羧酸
分子内力
药物化学
戒指(化学)
环丙烷
光化学
分子内反应
环丙烷化
直接的
哒嗪
羰基化
乙醚
还原消去
三乙胺
激进的
酮
环丁烷
亲核酰基取代反应
自由基离子
立体化学
金属化
羧化
芳基
氧化加成
杂原子
自由基环化
键裂
吡啶
二苯甲酮
作者
Hisao Shimono,Mayu Kusakabe,Kazunori Nagao,Hirohisa Ohmiya
摘要
Herein, we report a synthetic method for the photochemical or electrochemical carbonylative ring expansion of cyclic carboxylic acids. The reaction involves single electron reduction of a carbonyl group-derived cyclic α-heterocarboxylic acids to form a ketyl radical, which undergoes spin-center shift to generate an α-carbonyl radical and a heteroatom anion along with ring opening. Then, the radical undergoes hydrogen atom transfer with a reductant or radical coupling, while the anion undergoes intramolecular acyl substitution with the recovered carbonyl group. This protocol allows us to convert readily available cyclic α-heterocarboxylic acids to lactams, lactones, and thiolactone through taking the exocyclic carbonyl group of carboxylic acid into the cyclic framework. This reaction is also applicable to 2-aryl-substituted cyclopropane and cyclobutane carboxylic acids. In such cases, mechanistic studies indicated that the reaction would proceed via ring opening through C-C bond homolysis on the ketyl radical, followed by a reductive radical-polar crossover of the resultant benzyl radical to the benzyl anion, which then participates in the recyclization. When coupled with α-amino C-H carboxylation of cyclic aliphatic amines, this process functions as a molecular editing platform that enables the carbonylative ring expansion of ticlopidine and nicotine as well as the streamlined synthesis of an ivabradine fragment.
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