可逆的、无金属氢活化

Reversible, metal-free hydrogen activation.

作者信息

Welch Gregory C, San Juan Ronan R, Masuda Jason D, Stephan Douglas W

机构信息

Department of Chemistry and Biochemistry, University of Windsor, Windsor, Ontario N9B 3P4, Canada.

出版信息

Science. 2006 Nov 17;314(5802):1124-6. doi: 10.1126/science.1134230.

DOI:10.1126/science.1134230

PMID:17110572

Abstract

Although reversible covalent activation of molecular hydrogen (H2) is a common reaction at transition metal centers, it has proven elusive in compounds of the lighter elements. We report that the compound (C6H2Me3)2PH(C6F4)BH(C6F5)2 (Me, methyl), which we derived through an unusual reaction involving dimesitylphosphine substitution at a para carbon of tris(pentafluorophenyl) borane, cleanly loses H2 at temperatures above 100 degrees C. Preliminary kinetic studies reveal this process to be first order. Remarkably, the dehydrogenated product (C6H2Me3)2P(C6F4)B(C6F5)2 is stable and reacts with 1 atmosphere of H2 at 25 degrees C to reform the starting complex. Deuteration studies were also carried out to probe the mechanism.

摘要

尽管分子氢（H₂）的可逆共价活化在过渡金属中心是一种常见反应，但在较轻元素的化合物中却难以实现。我们报道了化合物（C₆H₂Me₃）₂PH（C₆F₄）BH（C₆F₅）₂（Me，甲基），它是通过三（五氟苯基）硼烷对位碳上的二甲基苯基膦取代这一不寻常反应得到的，在高于100℃的温度下能干净地失去H₂。初步动力学研究表明该过程为一级反应。值得注意的是，脱氢产物（C₆H₂Me₃）₂P（C₆F₄）B（C₆F₅）₂是稳定的，并且在25℃下与1个大气压的H₂反应以重新形成起始配合物。还进行了氘代研究以探究反应机理。

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可逆的、无金属氢活化

Reversible, metal-free hydrogen activation.

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