差异双氢官能团化:炔烃、烯基溴化物和平纳醇硼烷的双催化三组分偶联反应
Differential Dihydrofunctionalization: A Dual Catalytic Three-Component Coupling of Alkynes, Alkenyl Bromides, and Pinacolborane.
作者信息
Baumann James E, Lalic Gojko
机构信息
Department of Chemistry, University of Washington, Seattle, WA 98195, USA.
出版信息
Angew Chem Int Ed Engl. 2022 Sep 12;61(37):e202206462. doi: 10.1002/anie.202206462. Epub 2022 Aug 3.
Abstract
A new method for differential dihydrofunctionalization of terminal alkynes enables the synthesis of allylic boronate esters through reductive three-component coupling of terminal alkynes, alkenyl bromides, and pinacolborane. The transformation is promoted by cooperative action of a copper/palladium catalyst system and results in hydrofunctionalization of both π-bonds of an alkyne. The synthesis of allylic boronate esters can be accomplished in the presence of a wide range of functional groups, including, esters, nitriles, alkyl halides, sulfonyl esters, acetals, protected terminal alkynes, aryl halides, and silyl ethers. Mechanistic experiments reveal the importance of subtle ligand effects on the performance of the palladium co-catalyst.
摘要
一种用于末端炔烃差向双氢官能化的新方法,能够通过末端炔烃、烯基溴化物和平纳硼烷的还原三组分偶联反应合成烯丙基硼酸酯。该转化反应由铜/钯催化剂体系协同作用促进,使炔烃的两个π键都发生氢官能化。烯丙基硼酸酯的合成可以在多种官能团存在的情况下完成,这些官能团包括酯基、腈基、卤代烃、磺酸酯、缩醛、受保护的末端炔烃、芳基卤化物和硅醚。机理实验揭示了微妙的配体效应对于钯助催化剂性能的重要性。
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