化学
小学(天文学)
肟
乙醚
组合化学
激进的
烷基
分子
有机化学
碳链
拦截
立体化学
伯醇
功能群
小分子
胺气处理
化学转化
碳纤维
化学合成
作者
Haojie Ji,Junying Zang,Hongjian Lu
摘要
Single carbon-atom insertion represents a powerful molecular-editing strategy for homologation and controlled carbon-chain growth while preserving preexisting functional groups. Despite their ubiquity in bioactive chemical space, primary aliphatic amines─including amino acids─remain challenging substrates for minimal chain expansion. Here, we report a general and iterative strategy that enables formal one-carbon insertion into primary aliphatic amines. The transformation proceeds through in situ generation of triazanium intermediates from commercially available O -diphenylphosphinyl hydroxylamine, followed by rearrangement to form alkyl radical species. Selective interception of these radicals by aldoxime acceptors enables the installation of a skeletal sp 2 carbon, whereas ketoxime acceptors enable the dual installation of a skeletal sp 2 carbon and a peripheral functional group, furnishing synthetically versatile oxime ether products. Subsequent reductive conversion provides access to diverse sp 3 -carbon frameworks, including iterative one-carbon homologation. This method operates under mild conditions, exhibits broad functional-group tolerance, and is readily applicable to the late-stage molecular modification of bioactive compounds.
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