关于银（I）催化氨基醇与缺电子烯烃加成反应的见解：竞争机制、催化剂的作用及化学选择性的起源

Insights into Ag(i)-catalyzed addition reactions of amino alcohols to electron-deficient olefins: competing mechanisms, role of catalyst, and origin of chemoselectivity.

作者信息

Liu Chunhui, Han Peilin, Xie Zhizhong, Xu Zhihong, Wei Donghui

机构信息

School of Chemistry and Chemical Engineering, Xuchang University of China Xuchang Henan Province 461000 P. R. China.

Department of Chemistry, School of Chemistry, Chemical Engineering and Life Sciences, Wuhan University of Technology Wuhan Hubei Province 430070 P. R. China.

出版信息

RSC Adv. 2018 Dec 4;8(70):40338-40346. doi: 10.1039/c8ra09065c. eCollection 2018 Nov 28.

DOI:10.1039/c8ra09065c

PMID:35558202

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9091461/

Abstract

The competing mechanisms of Ag(i)-catalyzed chemoselective addition reactions of amino alcohols and electron-deficient olefins leading to the -adduct or -adduct products were systematically studied with density functional theory methods. Calculations indicate that the AgHMDS/dppe AgOAc/dppe catalytic systems can play different roles and thereby generate two different products. The AgHMDS/dppe system works as a Brønsted base to deprotonate the amino alcohol OH to form the Ag-O bond, which leads to formation of the -adduct. In contrast, the AgOAc/dppe system mainly acts as a Lewis acid to coordinate with O and N atoms of the amino alcohol, but it cannot act as the Brønsted base to further activate the OH group because of its weaker basicity. Therefore, the AgOAc/dppe catalyzed reaction has a mechanism that is similar to the non-catalyzed reaction, and generates the same -adduct. The obtained insights will be important for rational design of the various kinds of cooperatively catalyzed chemoselective addition reactions, including the use of the less nucleophilic hydroxyl groups of unprotected amino alcohols.

摘要

利用密度泛函理论方法，系统研究了银（I）催化的氨基醇与缺电子烯烃的化学选择性加成反应生成β-加合物或γ-加合物产物的竞争机制。计算结果表明，AgHMDS/dppe和AgOAc/dppe催化体系可发挥不同作用，从而生成两种不同产物。AgHMDS/dppe体系作为布朗斯特碱使氨基醇的OH去质子化形成Ag-O键，进而导致β-加合物的形成。相比之下，AgOAc/dppe体系主要作为路易斯酸与氨基醇的O和N原子配位，但由于其碱性较弱，不能作为布朗斯特碱进一步活化OH基团。因此，AgOAc/dppe催化的反应具有与非催化反应相似的机理，并生成相同的γ-加合物。所获得的见解对于合理设计各种协同催化的化学选择性加成反应具有重要意义，包括使用未保护氨基醇中亲核性较弱的羟基。

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关于银（I）催化氨基醇与缺电子烯烃加成反应的见解：竞争机制、催化剂的作用及化学选择性的起源

Insights into Ag(i)-catalyzed addition reactions of amino alcohols to electron-deficient olefins: competing mechanisms, role of catalyst, and origin of chemoselectivity.

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