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4

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5

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芳基钯氰配合物的还原消除。

Reductive elimination from arylpalladium cyanide complexes.

机构信息

Department of Chemistry, University of Illinois, 600 South Mathews Avenue, Urbana, Illinois 61801, USA.

出版信息

J Am Chem Soc. 2012 Apr 4;134(13):5758-61. doi: 10.1021/ja300827t. Epub 2012 Mar 8.

DOI:10.1021/ja300827t

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3360980/

Abstract

We report the isolation and characterization of arylpalladium cyanide complexes that undergo reductive elimination to form arylnitriles. The rates of reductive elimination from a series of arylpalladium cyanide complexes reveal that the electronic effects on the reductive elimination from arylpalladium cyanide complexes are distinct from those on reductive reductive eliminations from arylpalladium alkoxo, amido, thiolate, and enolate complexes. Arylpalladium cyanide complexes containing aryl ligands with electron-donating substituents undergo reductive elimination of aromatic nitriles faster than complexes containing aryl ligands with electron-withdrawing substituents. In addition, the transition state for the reductive elimination of the aromatic nitrile is much different from that for reductive eliminations that occur from most other arylpalladium complexes. Computational studies indicate that the reductive elimination of an arylnitrile from Pd(II) occurs through a transition state more closely related in structure and electronic distribution to that for the insertion of CO into a palladium-aryl bond.

摘要

我们报告了芳基钯氰化物配合物的分离和表征，这些配合物通过还原消除形成芳基腈。一系列芳基钯氰化物配合物的还原消除速率表明，芳基钯氰化物配合物的还原消除的电子效应与芳基钯烷氧基、酰胺、硫醇盐和烯醇盐配合物的还原消除的电子效应明显不同。含有供电子取代基的芳基配体的芳基钯氰化物配合物的芳香腈还原消除速度快于含有吸电子取代基的芳基配体的芳基钯氰化物配合物。此外，芳基腈还原消除的过渡态与大多数其他芳基钯配合物发生的还原消除的过渡态大不相同。计算研究表明，芳基腈从 Pd(II) 的还原消除是通过一个过渡态进行的，该过渡态在结构和电子分布上与 CO 插入钯-芳基键更为接近。