追求理想的配体：镍预催化剂的合理设计实现温和、均相的 C-N 交叉偶联。

The Quest for the Ideal Base: Rational Design of a Nickel Precatalyst Enables Mild, Homogeneous C-N Cross-Coupling.

机构信息

Department of Chemistry, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, United States.

出版信息

J Am Chem Soc. 2020 Mar 4;142(9):4500-4507. doi: 10.1021/jacs.0c00286. Epub 2020 Feb 19.

DOI:10.1021/jacs.0c00286

PMID:32040909

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8058700/

Abstract

Palladium-catalyzed amination reactions using soluble organic bases have provided a solution to the many issues associated with heterogeneous reaction conditions. Still, homogeneous C-N cross-coupling approaches cannot yet employ bases as weak and economical as trialkylamines. Furthermore, organic base-mediated methods have not been developed for Ni(0/II) catalysis, despite some advantages of such systems over those employing Pd-based catalysts. We designed a new air-stable and easily prepared Ni(II) precatalyst bearing an electron-deficient bidentate phosphine ligand that enables the cross-coupling of aryl triflates with aryl amines using triethylamine (TEA) as base. The method is tolerant of sterically congested coupling partners, as well as those bearing base- and nucleophile-sensitive functional groups. With the aid of density functional theory (DFT) calculations, we determined that the electron-deficient auxiliary ligands decrease both the p of the Ni-bound amine and the barrier to reductive elimination from the resultant Ni(II)-amido complex. Moreover, we determined that the preclusion of Lewis acid-base complexation between the Ni catalyst and the base, due to steric factors, is important for avoiding catalyst inhibition.

摘要

钯催化的使用可溶性有机碱的胺化反应为解决多相反应条件相关的许多问题提供了一种解决方案。尽管如此，均相 C-N 交叉偶联方法仍不能使用像三烷基胺这样弱且经济的碱。此外，尽管采用基于 Ni 的催化剂的系统具有一些优势，但有机碱介导的方法尚未开发用于 Ni(0/II)催化。我们设计了一种新的空气稳定且易于制备的 Ni(II)前催化剂，其带有缺电子的双齿膦配体，允许使用三乙胺 (TEA) 作为碱进行芳基三氟甲磺酸酯与芳基胺的交叉偶联。该方法对空间拥挤的偶联体以及对碱和亲核试剂敏感的官能团具有耐受性。借助密度泛函理论 (DFT) 计算，我们确定缺电子辅助配体降低了 Ni 键合胺的 p 值以及从所得 Ni(II)-酰胺配合物进行还原消除的势垒。此外，我们确定由于空间位阻因素，Ni 催化剂和碱之间的路易斯酸碱络合的排除对于避免催化剂抑制很重要。

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