质子耦合电子转移促进的环状醇的催化环扩张反应。
Catalytic Ring Expansions of Cyclic Alcohols Enabled by Proton-Coupled Electron Transfer.
机构信息
Department of Chemistry , Princeton University , Princeton , New Jersey 08544 , United States.
Discovery Chemistry , Bristol-Myers Squibb Co. , Princeton , New Jersey 08543 , United States.
出版信息
J Am Chem Soc. 2019 Jun 5;141(22):8752-8757. doi: 10.1021/jacs.9b03973. Epub 2019 May 23.
Abstract
We report here a catalytic method for the modular ring expansion of cyclic aliphatic alcohols. In this work, proton-coupled electron transfer activation of an allylic alcohol substrate affords an alkoxy radical intermediate that undergoes subsequent C-C bond cleavage to furnish an enone and a tethered alkyl radical. Recombination of this alkyl radical with the revealed olefin acceptor in turn produces a ring-expanded ketone product. The regioselectivity of this C-C bond-forming event can be reliably controlled via substituents on the olefin substrate, providing a means to convert a simple N-membered ring substrate to either n+1 or n+2 ring adducts in a selective fashion.
摘要
我们在此报告了一种用于环状脂肪族醇的模块化环扩大的催化方法。在这项工作中,烯丙醇底物的质子耦合电子转移活化提供了烷氧基自由基中间体,该中间体随后发生 C-C 键断裂,生成烯酮和连接的烷基自由基。该烷基自由基与揭示的烯烃受体的重组又产生了环扩酮产物。通过烯烃底物上的取代基,可以可靠地控制这种 C-C 键形成事件的区域选择性,从而提供了一种以选择性方式将简单的 N 元环底物转化为 n+1 或 n+2 环加合物的方法。
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