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通过双阴离子五齿配体平台的钼配合物中配位诱导的键弱化实现氨的自发活化

Spontaneous Ammonia Activation Through Coordination-Induced Bond Weakening in Molybdenum Complexes of a Dianionic Pentadentate Ligand Platform.

作者信息

Almquist C Christopher, Removski Nicole, Rajeshkumar Thayalan, Gelfand Benjamin S, Maron Laurent, Piers Warren E

机构信息

Department of Chemistry, University of Calgary, 2500 University Dr. NW, T2N 1N4, AB, Calgary, Canada.

LPCNO, INSA, UPS, Université de Toulouse, 135 avenue de Rangueil, 31077, Toulouse, France.

出版信息

Angew Chem Int Ed Engl. 2022 Aug 8;61(32):e202203576. doi: 10.1002/anie.202203576. Epub 2022 Jul 7.

DOI:10.1002/anie.202203576
PMID:35748415
Abstract

Ammonia oxidation catalyzed by molecular compounds is of current interest as a carbon-free source of dihydrogen. Activation of N-H bonds through coordination to transition metal centers is a key reaction in this process. We report the substantial activation of ammonia via reaction with low-valent molybdenum complexes of a diborate pentadentate ligand system. Spontaneous loss of dihydrogen from (B Pz Py)Mo -NH at room temperature to produce the dinuclear μ-nitrido compound (B Pz Py)Mo-N-Mo(B Pz Py) is observed due to substantial N-H bond weakening upon coordination to Mo. Mechanistic details are supported through the experimental observation/characterization of terminal amido, imido and nitrido complexes and density functional theory computations. The generally under-appreciated role of bridging nitrido intermediates is revealed and discussed, providing guidance for further catalyst development for this process.

摘要

由分子化合物催化的氨氧化作为一种无碳的二氢来源目前受到关注。通过与过渡金属中心配位来活化N-H键是该过程中的关键反应。我们报道了通过与二硼酸五齿配体体系的低价钼配合物反应对氨进行的实质性活化。由于与钼配位后N-H键显著减弱,在室温下观察到(B Pz Py)Mo -NH自发失去二氢生成双核μ-氮化物化合物(B Pz Py)Mo-N-Mo(B Pz Py)。通过末端酰胺基、亚氨基和氮化物配合物的实验观察/表征以及密度泛函理论计算支持了机理细节。揭示并讨论了桥连氮化物中间体通常未被充分认识的作用,为该过程的进一步催化剂开发提供了指导。

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