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    首页 分子通 (tri-2-pyridylmethane)tricarbonylmolybdenum

    (tri-2-pyridylmethane)tricarbonylmolybdenum | 132079-47-1

    中文名称
    ——
    中文别名
    ——
    英文名称
    (tri-2-pyridylmethane)tricarbonylmolybdenum
    英文别名
    ——
    (tri-2-pyridylmethane)tricarbonylmolybdenum化学式
    CAS
    132079-47-1
    化学式
    C19H13MoN3O3
    mdl
    ——
    分子量
    427.271
    InChiKey
    ZQOMBDUCWWOGCU-UHFFFAOYSA-N
    BEILSTEIN
    ——
    EINECS
    ——
    • 物化性质
    • 计算性质
    • ADMET
    • 安全信息
    • SDS
    • 制备方法与用途
    • 上下游信息
    • 反应信息
    • 文献信息
    • 表征谱图
    • 同类化合物
    • 相关功能分类
    • 相关结构分类

    计算性质

    • 辛醇/水分配系数(LogP):
      None
    • 重原子数:
      None
    • 可旋转键数:
      None
    • 环数:
      None
    • sp3杂化的碳原子比例:
      None
    • 拓扑面积:
      None
    • 氢给体数:
      None
    • 氢受体数:
      None

    反应信息

    • 作为产物:
      描述:
      tris(2-pyridyl)methanemolybdenum hexacarbonyl乙腈 为溶剂, 以92%的产率得到(tri-2-pyridylmethane)tricarbonylmolybdenum
      参考文献:
      名称:
      Strong Lewis acids derived from molybdenum and tungsten nitrosyls containing the tri-2-pyridylmethane ligand. Dynamic NMR studies of their adducts with aldehydes, ketones, and esters
      摘要:
      The doubly charged Lewis acid precursors [HC(py)3M(NO)2(CO)](SbF6)2 (M = Mo, W; HC(py)3 = tri-2-pyridylmethane) are conveniently synthesized by reaction of HC(py)3M(CO)3 and 2 equiv of NOSbF6. Facile loss of CO from the precursors generates the [HC(py)3M(NO)2](SbF6)2 Lewis acids. The Lewis acidity of the tungsten complex is greater than that of the molybdenum complex. With the H-1 NMR chemical shifts of bound crotonaldehyde as a qualitative assessment of relative acidity, the acidity of the tungsten species is comparable to that of BF3 and AlCl3, while that of the molybdenum species is similar to that of TiCl4. Analysis of the NMR spectra of the Lewis acid-organic carbonyl base adducts, which include the adducts of aldehydes, ketones, and esters, showed that eta-1-M(O = C) interactions dominate the chemistry. The barriers of rotation about the aldehyde C1-C2 bonds in the p-anisaldehyde adducts of the molybdenum and tungsten species were measured to be 12.8 and 13.7 kcal/mol, respectively, which are significantly higher than that for the free p-anisaldehyde. The exchange behavior between the E and Z isomers of the acetate adducts could be observed on the NMR time scale. The E to Z interconversion barriers of 12.2 +/- 0.1 and 12.3 +/- 0.1 kcal/mol for the methyl acetate and ethyl acetate complexes, respectively, were calculated from the results of variable-temperature proton NMR experiments. The free energy differences between the E and Z conformers of the methyl acetate and ethyl acetate adducts are 1.27 +/- 0.01 and 0.96 +/- 0.01 kcal/mol at 229 K, respectively.
      DOI:
      10.1021/ja00005a021
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