钯异常氮杂环卡宾配合物实现无氟日山偶联反应
Fluoride-free Hiyama coupling by palladium abnormal N-heterocyclic carbene complexes.
作者信息
Modak Sudipta, Gangwar Manoj Kumar, Nageswar Rao Mitta, Madasu Mahesh, Kalita Alok Ch, Dorcet Vincent, Shejale Mayuri Arun, Butcher Ray J, Ghosh Prasenjit
机构信息
Department of Chemistry, Indian Institute of Technology Bombay, Powai, Mumbai 400 076, India.
出版信息
Dalton Trans. 2015 Oct 28;44(40):17617-28. doi: 10.1039/c5dt02317c. Epub 2015 Sep 22.
A series of palladium complexes of the abnormal N-heterocyclic carbene ligands of the type (a-NHC)PdI2(L) [L = NC5H5(1-3)b and PPh3(1-3)c] effectively catalyzed the Hiyama coupling of aryl bromides and iodides with PhSi(OMe)3 under the highly desired fluoride-free conditions. Interestingly enough, the pyridine based trans-(1-3)b complexes and a PPh3 derived cis-3c complex exhibited higher yields than the related PPh3 derived trans-(1-2)c complexes. The superior performances of the pyridine based trans-(1-3)b complexes and the PPh3 derived cis-3c complex have been correlated to a tighter binding of the a-NHC ligand to the palladium center in these complexes, leading to a greater (a-NHC) ligand influence on the metal center partaking in the catalysis.
一系列具有(a-NHC)PdI2(L)类型(L = NC5H5(1 - 3)b和PPh3(1 - 3)c)的异常N-杂环卡宾配体的钯配合物,在高度期望的无氟条件下有效地催化了芳基溴化物和碘化物与PhSi(OMe)3的日向偶联反应。有趣的是,基于吡啶的反式-(1 - 3)b配合物和一种衍生自PPh3的顺式-3c配合物比相关的衍生自PPh3的反式-(1 - 2)c配合物表现出更高的产率。基于吡啶的反式-(1 - 3)b配合物和衍生自PPh3的顺式-3c配合物的优异性能与这些配合物中a-NHC配体与钯中心的紧密结合有关,导致(a-NHC)配体对参与催化的金属中心有更大的影响。
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