通过能量转移、电子转移和钴催化实现亚胺酯的自由基氮杂-赫克环化反应。
Radical Aza-Heck Cyclization of Imidates via Energy Transfer, Electron Transfer, and Cobalt Catalysis.
作者信息
Prusinowski Allen F, Sise Henry C, Bednar Taylor N, Nagib David A
机构信息
Department of Chemistry and Biochemistry, The Ohio State University, Columbus, OH 43210, United States.
出版信息
ACS Catal. 2022 Apr 15;12(8):4327-4332. doi: 10.1021/acscatal.2c00804. Epub 2022 Mar 28.
Abstract
A radical aza-Heck cyclization has been developed to afford functionally rich products with four contiguous C-heteroatom bonds. This multi-catalytic strategy provides rapid syntheses of dense, medicinally relevant motifs by enabling the conversion of alcohol-derived imidates to heteroatom-rich fragments containing vinyl oxazolines/oxazoles, allyl amines, β-amino alcohols/halides, and combinations thereof. Mechanistic insights of this process show how three distinct photocatalytic cycles cooperate to enable: (1) imidate radical generation by energy transfer, (2) dehydrogenation by Co catalysis, and (3) catalyst turnover by electron transfer.
摘要
一种自由基氮杂-Heck环化反应已被开发出来,用于制备具有四个相邻碳-杂原子键的功能丰富的产物。这种多催化策略通过将醇衍生的亚胺酯转化为富含杂原子的片段,包括乙烯基恶唑啉/恶唑、烯丙基胺、β-氨基醇/卤化物及其组合,从而实现了密集的、与药物相关的基序的快速合成。该过程的机理研究表明了三个不同的光催化循环是如何协同作用的:(1) 通过能量转移生成亚胺酯自由基,(2) 通过钴催化进行脱氢,以及(3) 通过电子转移实现催化剂周转。
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