Redox-Neutral Umpolung Synthesis of α-Functionalized Amides

IF 8.5 Q1 CHEMISTRY, MULTIDISCIPLINARY
Rui Wang, Shaokang An, Yi-Xuan Xin, Yuan-Ye Jiang* and Wenbo H. Liu*, 
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引用次数: 0

Abstract

α-Heteroatom-substituted amides are useful as both targets and intermediates but are challenging to synthesize via conventional enolate chemistry. Herein, we describe a general and unified umpolung procedure to prepare α-heteroatom-functionalized secondary amides with various heteroatom-based nucleophiles under redox-neutral conditions. This transformation is a formal oxidation state reshuffle process from −N to −C in the hydroxamate, thereby achieving the umpolung α-heterofunctionalization of carbonyl groups without external oxidants. Regulated by the reshuffle mechanism, functionalization exclusively occurs at the α-position of the hydroxamate and precisely affords the α-functionalized amide with reliable predictability even in complex settings. Density functional theory studies support that soft enolization enabled by Mg2+/DIPEA combination is essential to facilitate the formation of the α-lactam intermediate. This represents the first general protocol to prepare α-functionalized secondary amides.

氧化还原中性乌普隆合成α官能化酰胺
α-杂原子取代酰胺既是有用的目标物,也是有用的中间体,但通过传统的烯醇化学合成却具有挑战性。在此,我们介绍了一种通用的统一umpolung 程序,在氧化还原中性条件下,用各种基于杂原子的亲核物制备α-杂原子官能化的仲酰胺。这种转化是一种形式上的氧化态重新洗牌过程,从羟基酰胺中的-N 到-C,从而在没有外部氧化剂的情况下实现羰基的umpolung α-heterofunctionalization。在重新洗牌机制的调节下,官能化只发生在羟肟酸的α位,即使在复杂的环境中也能精确地得到α官能化的酰胺,并具有可靠的可预测性。密度泛函理论研究证明,Mg2+/DIPEA 组合产生的软烯化作用对促进 α-内酰胺中间体的形成至关重要。这是制备 α 功能化仲酰胺的首个通用方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
9.10
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