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通过钯(II)/钯(0)催化实现C(sp)-H键与有机金属试剂的交叉偶联**。

Cross-coupling of C(sp)-H Bonds with Organometallic Reagents via Pd(II)/Pd(0) Catalysis**.

作者信息

Wasa Masayuki, Engle Keary M, Yu Jin-Quan

机构信息

Department of Chemistry, The Scripps Research Institute, 10550 North Torrey Pines Rd., La Jolla, CA 92037 (USA).

出版信息

Isr J Chem. 2010 Dec;50(5-6):605-616. doi: 10.1002/ijch.201000038.

DOI:10.1002/ijch.201000038
PMID:21552359
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3086742/
Abstract

Palladium-catalyzed C-H activation/C-C bond-forming reactions have emerged as a promising class of synthetic tools in organic chemistry. Among the many different means of forging C-C bonds using Pd-mediated C-H activation, a new horizon in this field is Pd(II)-catalyzed cross-coupling of C-H bonds with organometallic reagents via a Pd(II)/Pd(0) catalytic cycle. While this type of reaction has proven to be effective for the selective functionalization of aryl C(sp(2))-H bonds, the focus of this review is on Pd(II)-catalyzed C(sp(3))-H activation/C-C cross-coupling, a topic of particular importance because reactions of this type enable fundamentally new methods for bond construction. Since our laboratory's initial report on cross-coupling of C-H bonds in 2006, this area has expanded rapidly, and the unique ability of Pd(II) catalysts to cleave and functionalize alkyl C(sp(3))-H bonds has been exploited to develop protocols for forming an array of C(sp(3))-C(sp(2)) and C(sp(3))-C(sp(3)) bonds. Furthermore, enantioselective C(sp(3))-H activation/C-C cross-coupling has been achieved through the use of chiral amino acid-derived ligands, offering a novel technique for producing enantioenriched molecules. Although this nascent field remains at an early stage of development, further investigations hold the potential to revolutionalize the way in which chiral molecules are synthesized in industrial and academic laboratories.

摘要

钯催化的C-H活化/C-C键形成反应已成为有机化学中一类很有前景的合成工具。在利用钯介导的C-H活化形成C-C键的众多不同方法中,该领域的一个新方向是通过Pd(II)/Pd(0)催化循环实现的Pd(II)催化的C-H键与有机金属试剂的交叉偶联。虽然这类反应已被证明对芳基C(sp(2))-H键的选择性官能团化有效,但本综述的重点是Pd(II)催化的C(sp(3))-H活化/C-C交叉偶联,这是一个特别重要的主题,因为这类反应能实现全新的键构建方法。自我们实验室在2006年首次报道C-H键的交叉偶联以来,该领域迅速发展,并且Pd(II)催化剂裂解和官能团化烷基C(sp(3))-H键的独特能力已被用于开发形成一系列C(sp(3))-C(sp(2))和C(sp(3))-C(sp(3))键的方法。此外,通过使用手性氨基酸衍生的配体实现了对映选择性C(sp(3))-H活化/C-C交叉偶联,为生产对映体富集的分子提供了一种新技术。尽管这个新兴领域仍处于发展初期,但进一步的研究有可能彻底改变工业和学术实验室中手性分子的合成方式。

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