利用羰基基团控制铑催化的烯烃和炔烃氢甲酰化反应的分子间反应。

Exploiting Carbonyl Groups to Control Intermolecular Rhodium-Catalyzed Alkene and Alkyne Hydroacylation.

机构信息

Department of Chemistry, Chemistry Research Laboratory, University of Oxford , Mansfield Road, Oxford OX1 3TA, U.K.

出版信息

J Am Chem Soc. 2017 Jul 26;139(29):10142-10149. doi: 10.1021/jacs.7b05713. Epub 2017 Jul 17.

Abstract

Readily available β-carbonyl-substituted aldehydes are shown to be exceptional substrates for Rh-catalyzed intermolecular alkene and alkyne hydroacylation reactions. By using cationic rhodium catalysts incorporating bisphosphine ligands, efficient and selective reactions are achieved for β-amido, β-ester, and β-keto aldehyde substrates, providing a range of synthetically useful 1,3-dicarbonyl products in excellent yields. A correspondingly broad selection of alkenes and alkynes can be employed. For alkyne substrates, the use of a catalyst incorporating the Ampaphos ligand triggers a regioselectivity switch, allowing both linear and branched isomers to be prepared with high selectivity in an efficient manner. Structural data, confirming aldehyde chelation, and a proposed mechanism are provided.

摘要

现成的β-羰基取代的醛被证明是 Rh 催化的烯烃和炔烃氢甲酰化反应的优异底物。通过使用阳离子铑催化剂与双膦配体结合，β-酰胺基、β-酯基和β-酮醛底物的高效和选择性反应得以实现，以优异的收率提供了一系列具有合成用途的 1,3-二羰基产物。可以使用相应广泛的烯烃和炔烃选择物。对于炔烃底物，使用含有 Ampaphos 配体的催化剂会引发区域选择性开关，以高效的方式高选择性地制备线性和支链异构体。提供了结构数据，证实了醛的螯合作用和提出的反应机理。

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利用羰基基团控制铑催化的烯烃和炔烃氢甲酰化反应的分子间反应。

Exploiting Carbonyl Groups to Control Intermolecular Rhodium-Catalyzed Alkene and Alkyne Hydroacylation.

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