乙烯参与的不对称催化。官能化手性烯醇盐的合成。
Asymmetric Catalysis with Ethylene. Synthesis of Functionalized Chiral Enolates.
作者信息
Biswas Souvagya, Page Jordan P, Dewese Kendra R, RajanBabu T V
机构信息
Department of Chemistry and Biochemistry, The Ohio State University , 100 West 18th Avenue, Columbus, Ohio 43210, United States.
出版信息
J Am Chem Soc. 2015 Nov 18;137(45):14268-71. doi: 10.1021/jacs.5b10364. Epub 2015 Nov 10.
Abstract
Trialkylsilyl enol ethers are versatile intermediates often used as enolate surrogates for the synthesis of carbonyl compounds. Yet there are no reports of broadly applicable, catalytic methods for the synthesis of chiral silyl enol ethers carrying latent functionalities useful for synthetic operations beyond the many possible reactions of the silyl enol ether moiety itself. Here we report a general procedure for highly catalytic (substrate:catalyst ratio up to 1000:1) and enantioselective (92% to 98% major enantiomer) synthesis of such compounds bearing a vinyl group at a chiral carbon at the β-position. The reactions, run under ambient conditions, use trialkylsiloxy-1,3-dienes and ethylene (1 atm) as precursors and readily available (bis-phosphine)-cobalt(II) complexes as catalysts. The silyl enolates can be readily converted into novel enantiopure vinyl triflates, a class of highly versatile cross-coupling reagents, enabling the syntheses of other enantiomerically pure, stereodefined trisubstituted alkene intermediates not easily accessible by current methods. Examples of Kumada, Stille, and Suzuki coupling reactions are illustrated.
摘要
三烷基硅烯醇醚是用途广泛的中间体,常用于作为烯醇负离子替代物来合成羰基化合物。然而,对于合成带有潜在官能团的手性硅烯醇醚,尚未有广泛适用的催化方法的报道,这些潜在官能团对于硅烯醇醚部分本身众多可能反应之外的合成操作是有用的。在此,我们报道了一种通用方法,用于高催化性(底物与催化剂比例高达1000:1)和对映选择性(主要对映体比例为92%至98%)地合成此类在β位手性碳上带有乙烯基的化合物。这些反应在环境条件下进行,使用三烷基硅氧基 - 1,3 - 二烯和乙烯(1个大气压)作为前体,并使用易于获得的(双膦)钴(II)配合物作为催化剂。硅烯醇负离子可以很容易地转化为新型对映体纯的乙烯基三氟甲磺酸酯,这是一类高度通用的交叉偶联试剂,能够合成其他目前方法不易获得的对映体纯、立体定义的三取代烯烃中间体。文中展示了 Kumada、Stille 和 Suzuki 偶联反应的示例。
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