双镍和路易斯酸催化的交叉亲电偶联反应：芳基卤化物与烯丙醇的烯丙基化反应

Dual nickel and Lewis acid catalysis for cross-electrophile coupling: the allylation of aryl halides with allylic alcohols.

作者信息

Jia Xue-Gong, Guo Peng, Duan Jicheng, Shu Xing-Zhong

机构信息

State Key Laboratory of Applied Organic Chemistry (SKLAOC) , College of Chemistry and Chemical Engineering , Lanzhou University , 222 South Tianshui Road , Lanzhou , 730000 , China . Email:

出版信息

Chem Sci. 2017 Nov 6;9(3):640-645. doi: 10.1039/c7sc03140h. eCollection 2018 Jan 21.

DOI:10.1039/c7sc03140h

PMID:29629130

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5868389/

Abstract

Controlling the selectivity in cross-electrophile coupling reactions is a significant challenge, particularly when one electrophile is much more reactive. We report a general and practical strategy to address this problem in the reaction between reactive and unreactive electrophiles by a combination of nickel and Lewis acid catalysis. This strategy is used for the coupling of aryl halides with allylic alcohols to form linear allylarenes selectively. The reaction tolerates a wide range of functional groups ( silanes, boronates, anilines, esters, alcohols, and various heterocycles) and works with various allylic alcohols. Complementary to most current routes for the C3 allylation of an unprotected indole, this method provides access to C2 and C4-C7 allylated indoles. Preliminary mechanistic experiments reveal that the reaction might start with an aryl nickel intermediate, which then reacts with Lewis acid activated allylic alcohols in the presence of Mn.

摘要

控制交叉亲电试剂偶联反应中的选择性是一项重大挑战，尤其是当一种亲电试剂的反应活性高得多时。我们报道了一种通用且实用的策略，通过镍和路易斯酸催化相结合来解决活性和亲电试剂与非活性亲电试剂之间反应中的这一问题。该策略用于芳基卤化物与烯丙醇的偶联，以选择性地形成线性烯丙基芳烃。该反应能耐受多种官能团（硅烷、硼酸酯、苯胺、酯、醇和各种杂环），并适用于各种烯丙醇。与目前大多数用于未保护吲哚的C3烯丙基化的路线互补，该方法可用于制备C2和C4 - C7烯丙基化的吲哚。初步机理实验表明，反应可能始于芳基镍中间体，然后在锰存在下与路易斯酸活化的烯丙醇反应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d921/5868389/a5b9d047e20f/c7sc03140h-s2.jpg

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双镍和路易斯酸催化的交叉亲电偶联反应：芳基卤化物与烯丙醇的烯丙基化反应

Dual nickel and Lewis acid catalysis for cross-electrophile coupling: the allylation of aryl halides with allylic alcohols.

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