金属羰基化合物

  • 网络carbonyls;metal carbonyl
金属羰基化合物金属羰基化合物
  1. 氧原子转移试剂存在条件下金属羰基化合物的CO取代动力学研究

    Kinetics and Mechanism of CO Substitution of Metal Carbonyls in the Presence of O atom Transfer Reagents

  2. 从金属羰基化合物和氧原子转移试剂两个方面讨论了影响CO取代反应速率的各种因素。

    Various factors relating to the metal carbonyls and to the O atom transfer reagents that effect the rates of CO substitution are discussed .

  3. 金属羰基化合物[CpFe(CO)2]2与金属氧化物表面作用的傅里叶变换漫反射和光声红外光谱研究

    The study of interactions of [ cpfe ( co ) 2 ] 2 with surface of alumina and titania supports by Fourier transform diffuse reflection and photoacoustic infrared spectroscopy

  4. 金属羰基化合物和分子氮配合物的键合差异

    The differences between compound of metal carbonyls and complex of dinitrogen

  5. 紫外激光引发金属羰基化合物聚合苯乙炔

    Laser - initiated Polymerization of Phenylacetylene by Metal Carbonyls

  6. 金属羰基化合物的结构对氧原子转移反应速率的影响

    Effect of structural factors on the rates of oxygen atom transfer to metal carbonyls

  7. 阐述了甲醇合成铜基催化剂的活性机理,常见毒物如硫、氯、油、氨、金属羰基化合物等对铜基催化剂的毒害机理。

    This article expounds the active mechanism and poisoning mechanism of copper & based catalyst for methanol synthesis . The common poisoners for the catalyst are sulphur , chloride , oil , ammonia , metal carbonyl polymer etc.

  8. 过渡金属催化的羰基化合物及含酸性氢化合物的α-芳基化反应

    Transition-Metal Catalyzed α - Arylation of Carbonyl Derivatives and Compounds with Acidic Hydrogen

  9. 本文总结了六种钼&铁混合金属羰基原子簇化合物的合成、结构类型和电子计数。

    We discuss the syntheses , structural pattern and electron counting of six molybdenum-iron mixed metal carbonyl clusters .

  10. 对钯等过渡金属催化的羰基化合物及含酸性氢化合物的α芳基化反应的研究进展进行了论述。

    Advances in the transition-metal catalyzed α - arylation of carbonyl derivatives and compounds with acidic hydrogen are reviewed .

  11. 第二部分是稀土金属镝参与下羰基化合物的Barbier型反应的研究。

    In the second part , the Barbier type reaction of carbonyl compounds promoted by metallic dysprosium has been studied .

  12. 介绍了某些烯丙型金属有机化合物与羰基化合物的加成反应,并通过反应历程予以说明。

    It were introduced that some Addition reaction of carbonyl compounds with allylic metallorganic compounds , and it were discussed by reaction mechanism .