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通过钯-镁双金属协同作用实现芳基氟化物的活化:一项机理与计算研究

Aryl Fluoride Activation Through Palladium-Magnesium Bimetallic Cooperation: A Mechanistic and Computational Study.

作者信息

Wu Chen, McCollom Samuel P, Zheng Zhipeng, Zhang Jiadi, Sha Sheng-Chun, Li Minyan, Walsh Patrick J, Tomson Neil C

机构信息

Roy and Diana Vagelos Laboratories, Department of Chemistry, University of Pennsylvania, 231 South 34th Street, Philadelphia, Pennsylvania 19104-6323, United States.

出版信息

ACS Catal. 2020 Jul 17;10(14):7934-7944. doi: 10.1021/acscatal.0c01301. Epub 2020 Jun 22.

DOI:10.1021/acscatal.0c01301
PMID:34221636
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8248268/
Abstract

Herein is described a mechanistic study of a palladium-catalyzed cross-coupling of aryl Grignard reagents to fluoroarenes that proceeds via a low-energy heterobimetallic oxidative addition pathway. Traditional oxidative additions of aryl chlorides to Pd complexes are known to be orders of magnitude faster than with aryl fluorides, and many palladium catalysts do not activate aryl fluorides at all. The experimental and computational studies outlined herein, however, support the view that at elevated Grignard : ArX ratios (i.e. 2.5 : 1) a Pd-Mg heterobimetallic mechanism predominates, leading to a remarkable decrease in the energy required for Ar-F bond activation. The heterobimetallic transition state for C-X bond cleavage is proposed to involve simultaneous Pd backbonding to the arene and Lewis acid activation of the halide by Mg to create a low-energy transition state for oxidative addition. The insights gained from this computational study led to the development of a phosphine ligand that was shown to be similarly competent for Ar-F bond activation.

摘要

本文描述了钯催化芳基格氏试剂与氟代芳烃的交叉偶联反应的机理研究,该反应通过低能量异双金属氧化加成途径进行。已知芳基氯化物与钯配合物的传统氧化加成反应比芳基氟化物快几个数量级,并且许多钯催化剂根本不能活化芳基氟化物。然而,本文概述的实验和计算研究支持这样一种观点,即在较高的格氏试剂与芳基卤化物比例(即2.5:1)下,钯-镁异双金属机理占主导,导致芳基-氟键活化所需的能量显著降低。提出用于碳-卤键裂解的异双金属过渡态涉及钯同时向芳烃反馈成键以及镁对卤化物的路易斯酸活化,以形成用于氧化加成的低能量过渡态。从这项计算研究中获得的见解导致开发出一种膦配体,该配体被证明对芳基-氟键活化同样有效。

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