分子内力
化学
均分解
激进的
氢原子
三键
键裂
光化学
腈
根本歧化
分子
自由基环化
组合化学
群(周期表)
立体化学
有机化学
催化作用
双键
歧化
作者
Jia‐Liang Zhu,Meilin Chen
出处
期刊:Molecules
[Multidisciplinary Digital Publishing Institute]
日期:2025-07-14
卷期号:30 (14): 2959-2959
标识
DOI:10.3390/molecules30142959
摘要
The radical-mediated intramolecular translocation of cyano groups has been recognized as a useful tool for the site-selective functionalization of organic molecules. The process is believed to proceed through the addition of an in situ-generated carbon-centered radical to the nitrile triple bond, followed by the β-scission of the resulting cyclic iminyl radical intermediate to relocate the cyano group and produce a more stable carbon radical for further elaboration. Beginning in the early 1960s and continuing for the next forty years, the research in this particular area has seen a surge of growth during the past two decades with advancements in radical chemistry and photocatalysis. The present article attempts to conduct a comprehensive review of existing studies on this topic by covering the literature from 1961 to 2025. The procedures developed for the purpose are grouped and discussed in four sections according to the strategies used to generate the initial carbon radicals, which include (i) hydrogen-atom transfer (HAT), (ii) radical addition to the π system, (iii) halogen-atom transfer (XAT), and (iv) the homolytic fission of a C-C single bond. In each section, a specific emphasis will be placed on reaction conditions, substrate scopes, and mechanisms.
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