氧化质子耦合电子转移实现的催化烯烃碳胺化反应
Catalytic Alkene Carboaminations Enabled by Oxidative Proton-Coupled Electron Transfer.
作者信息
Choi Gilbert J, Knowles Robert R
机构信息
Department of Chemistry, Princeton University, Princeton, New Jersey 08544, United States.
出版信息
J Am Chem Soc. 2015 Jul 29;137(29):9226-9. doi: 10.1021/jacs.5b05377. Epub 2015 Jul 15.
Abstract
Here we describe a dual catalyst system comprised of an iridium photocatalyst and weak phosphate base that is capable of both selectively homolyzing the N-H bonds of N-arylamides (bond dissociation free energies ∼ 100 kcal/mol) via concerted proton-coupled electron transfer (PCET) and mediating efficient carboamination reactions of the resulting amidyl radicals. This manner of PCET activation, which finds its basis in numerous biological redox processes, enables the formal homolysis of a stronger amide N-H bond in the presence of weaker allylic C-H bonds, a selectivity that is uncommon in conventional molecular H atom acceptors. Moreover, this transformation affords access to a broad range of structurally complex heterocycles from simple amide starting materials. The design, synthetic scope, and mechanistic evaluation of the PCET process are described.
摘要
在此,我们描述了一种由铱光催化剂和弱磷酸碱组成的双催化剂体系,该体系能够通过协同质子耦合电子转移(PCET)选择性地均裂N-芳基酰胺的N-H键(键解离自由能~100 kcal/mol),并介导所得酰胺基自由基的高效碳胺化反应。这种PCET活化方式基于众多生物氧化还原过程,能够在较弱的烯丙基C-H键存在下实现更强的酰胺N-H键的形式上的均裂,这种选择性在传统分子氢原子受体中并不常见。此外,这种转化能够从简单的酰胺起始原料获得多种结构复杂的杂环化合物。本文描述了PCET过程的设计、合成范围和机理评估。
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