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首页> 外文期刊>Angewandte Chemie >Dinitrogen-Molybdenum Complex Induces Dinitrogen Cleavage by One-Electron Oxidation
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Dinitrogen-Molybdenum Complex Induces Dinitrogen Cleavage by One-Electron Oxidation

机译:用单电子氧化诱导二氮钼络合物诱导二煤裂解

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摘要

Reported here is the N-2 cleavage of a one-electron oxidation reaction using trans-[Mo(depe)(2)(N-2)(2)] (1) (depe=Et2PCH2CH2PEt2), which is a classical molybdenum(0)-dinitrogen complex supported by two bidentate phosphine ligands. The molybdenum(IV) terminal nitride complex [Mo(depe)(2)N][BArf(4)] (2) (BArf(4)=B(3,5-(CF3)(2)C6H3)(4)) is synthesized by the one-electron oxidation of 1 upon addition of a mild oxidant, [Cp2Fe][BArf(4)] (Cp=C5H5), and proceeds by N-2 cleavage from a Mo-II-N=N-Mo-II structure. In addition, the electrochemical oxidation reaction for 1 also cleaved the N-2 ligand to give 2. The dimeric Mo complex with a bridging N-2 is detected by in situ resonance Raman and in situ UV-vis spectroscopies during the electrochemical oxidation reaction for 1. Density-functional theory (DFT) calculations reveal that the unstable monomeric oxidized Mo-I species is converted into 2 via the dimeric structure involving a zigzag transition state.
机译:这里报道的是使用反式[Mo(Depe)(2)(2)(2)(2)](1)(Depe = Et 2 PCH 2 CHO 22)的单电子氧化反应的N-2切割,这是一种经典的钼( 0) - 由两个二齿膦配体支撑的丁香复合物。 钼(IV)末端氮化物复合物[Mo(Depe)(2)n] [Barf(4)](2)(Barf(4)= B(3,5-(CF 3)(2)C6H3)(4) 通过在加入温和的氧化剂(CP2FE] [CP = C5H5)后,通过1的单电子氧化合成,并通过从MO-II-N = N-进行N-2切割进行N-2切割 MO-II结构。 另外,用于1的电化学氧化反应也裂解N-2配体,得到2.通过在电化学氧化反应期间原位共振拉曼和原位UV-Vis光谱检测与桥接N-2的二聚体Mo复合物 1.密度功能理论(DFT)计算表明,不稳定的单体氧化Mo-1物种通过涉及锯齿形过渡状态的二聚体结构转化为2。

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  • 来源
    《Angewandte Chemie》 |2019年第33期|共6页
  • 作者

    Katayama Akira; Ohta Takehiro; Wasada-Tsutsui Yuko; Inomata Tomohiko; Ozawa Tomohiro; Ogura Takashi; Masuda Hideki;

  • 作者单位

    Nagoya Inst Technol Grad Sch Engn Dept Cooperat Major Nanopharmaceut Sci Showa Ku Nagoya Aichi 4668555 Japan;

    Univ Hyogo Picobiol Inst Grad Sch Life Sci RSC UH LP Ctr Mikazuki Hyogo 6795148 Japan;

    Nagoya Inst Technol Grad Sch Engn Dept Cooperat Major Nanopharmaceut Sci Showa Ku Nagoya Aichi 4668555 Japan;

    Nagoya Inst Technol Grad Sch Engn Dept Life Sci &

    Appl Chem Showa Ku Nagoya Aichi 4668555 Japan;

    Nagoya Inst Technol Grad Sch Engn Dept Cooperat Major Nanopharmaceut Sci Showa Ku Nagoya Aichi 4668555 Japan;

    Univ Hyogo Picobiol Inst Grad Sch Life Sci RSC UH LP Ctr Mikazuki Hyogo 6795148 Japan;

    Nagoya Inst Technol Grad Sch Engn Dept Life Sci &

    Appl Chem Showa Ku Nagoya Aichi 4668555 Japan;

  • 收录信息
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 应用化学;
  • 关键词

    dinitrogen; molybdenum; oxidation; reaction mechanisms; structure elucidation;

    机译:二氮;钼;氧化;反应机制;结构阐明;

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