带有与半不稳定配体螯合的阴离子羧酸盐的钌卡宾配合物。
Ruthenium carbene complexes bearing an anionic carboxylate chelated to a hemilabile ligand.
作者信息
Samec Joseph S M, Grubbs Robert H
机构信息
Division of Chemistry and Chemical Engineering, Arnold and Mabel Beckman Laboratories of Chemical Synthesis, California Institute of Technology, Pasadena, CA 91125, USA.
出版信息
Chemistry. 2008;14(9):2686-92. doi: 10.1002/chem.200701495.
A series of bidentate ruthenium-based NHC complexes with the general formula [(H(2)IMes)(kappa(2)-L-COO)ClRu=CHPh)], where L is either PAr(3), HNR(2), or ROR, were prepared from commercially available [(H(2)IMes)(PCy(3))Cl(2)Ru(CHPh)] (2) and the appropriate ligand. The catalytic activities of the complexes were evaluated in ring-closing metathesis reactions. The type of donor ligand has a major impact on both the initiation behavior and also the stability of the complexes. Upon addition of CuCl to the reaction mixture the initiation is improved for the phosphine or amine containing chelates. For the P,O-chelate, the fast initiation was followed by decomposition. In the case of the N,O-containing chelate, a stable catalytic system was achieved. Trapping experiments support that the nitrogen lone-pair reversibly coordinates CuCl during the reaction.
制备了一系列通式为[(H(2)IMes)(κ(2)-L-COO)ClRu=CHPh]的双齿钌基NHC配合物,其中L为PAr(3)、HNR(2)或ROR,它们由市售的[(H(2)IMes)(PCy(3))Cl(2)Ru(CHPh)] (2)与相应配体制备而成。在闭环复分解反应中评估了这些配合物的催化活性。供体配体的类型对配合物的引发行为和稳定性都有重大影响。向反应混合物中加入CuCl后,含膦或胺的螯合物的引发得到改善。对于P,O-螯合物,快速引发后会分解。在含N,O-螯合物的情况下,实现了稳定的催化体系。捕获实验表明,在反应过程中氮孤对会与CuCl发生可逆配位。
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