阳离子三(μ-羟基)二钌(II)配合物催化苯乙炔的e -选择性二聚化及其机理:两个钌中心在催化中的作用

IF 5.062
Sayori Kiyota, Hirofumi Soeta, Nobuyuki Komine, Sanshiro Komiya , Masafumi Hirano
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引用次数: 5

摘要

双核配合物[(Me3P)3Ru(μ-OH)3Ru(PMe3)3]+[OPh]−(1)(0.5 mol%)催化苯乙炔的E选择性二聚化反应,该反应涉及苯乙炔的C - h键裂解和立体定向C - C键形成反应,在100℃下反应2 h得到(E)-1,4-二苯基丁-3-烯-1-炔,定量产率为(E)-1,4-二苯基丁-3-烯-1-炔(E/Z = 91/9)。用4-硝基-、4-氰基-、4-三氟甲基-、4-乙酰基-和4-甲基苯基乙炔进行类似反应,得到相应的炔。苯乙炔二聚化反应的动力学研究表明,苯乙炔和1的浓度分别为二级和一级反应,表明该反应是由双核钌配合物催化的。在催化体系中加入PMe3会强烈抑制二聚化反应。这些特征与这种情况一致,即PMe3配体与1的解离得到一个配位不饱和的二钌,其中一个钌中心作为酶形成的反应位点,另一个钌中心在催化过程中充当旁观者。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

E-Selective dimerization of phenylacetylene catalyzed by cationic tris(μ-hydroxo)diruthenium(II) complex and the mechanistic insight: The role of two ruthenium centers in catalysis

E-Selective dimerization of phenylacetylene catalyzed by cationic tris(μ-hydroxo)diruthenium(II) complex and the mechanistic insight: The role of two ruthenium centers in catalysis

A dinuclear complex [(Me3P)3Ru(μ-OH)3Ru(PMe3)3]+[OPh] (1) (0.5 mol%) catalyzes E-selective dimerization of phenylacetylene, which involves the C–H bond cleavage of phenylacetylene and resulting stereospecific C–C bond forming reaction, at 100 °C for 2 h to give (E)-1,4-diphenylbut-3-en-1-yne in quantitative yield (E/Z = 91/9). Similar reactions using 4-nitro-, 4-cyano-, 4-trifluoromethyl-, 4-acetyl-, and 4-methylphenylacetylene give the corresponding enynes. The kinetic study for dimerization of phenylacetylene shows the second-order and first-order reactions with regard to the phenylacetylene and 1 concentrations, respectively, suggesting this reaction to be catalyzed by a dinuclear ruthenium complex. Addition of PMe3 to the catalytic system strongly discourages the dimerization. These features are consistent with the scenario, where dissociation of a PMe3 ligand from 1 gives a coordinatively unsaturated diruthenium species and one of the ruthenium centers performs as a reaction site for the enyne formation and the other ruthenium center behaves as a spectator in the catalysis.

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2.8 months
期刊介绍: The Journal of Molecular Catalysis A: Chemical publishes original, rigorous, and scholarly full papers that examine the molecular and atomic aspects of catalytic activation and reaction mechanisms in homogeneous catalysis, heterogeneous catalysis (including supported organometallic catalysis), and computational catalysis.
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