配位体交换

  • 网络ligand exchange
配位体交换配位体交换
  1. 载Fe(Ⅲ)配位体交换棉纤维吸附剂在去除饮用水中氟离子的应用

    The removal of fluoride in drinking water by the novel bead fe (ⅲ) - loaded ligand exchange cotton cellulose adsorbent

  2. 采用配位体交换树脂对中性氨基酸(Gly,Ala,Val和Leu)进行了分离,并与一般阳离子交换树脂的分离性能进行了比较,对淋洗剂、柱温等分离条件进行了实验;

    Four neutral amino acids ( Gly , Ala , Val and Leu ) were separated with ligand exchange resins . The separation capacity of the ligand exchange resins was compared with that of common ion exchange resins .

  3. 结论Cr(V)化合物与葡萄糖的配位体交换反应取决于配位体结构、葡萄糖的浓度及反应体系pH值,同时产生新物种。

    Conclusion The exchange reaction between Cr ( V ) and sugars depends on the structure of sugars , concentrations of sugars and pH values of the system . The lifetime of new species is related with the nature of the system .

  4. 实验表明,在pH2.43时,高岭石表面与胡敏酸表面之间的静电斥力逐渐增强,高岭石吸附胡敏酸的主要机制以配位体交换、氢键和疏水性作用为主。

    According to the results obtained , pH2.43 , electrostatic repulsion between the surface of kaolinite and humic acid gradually strengthened , the main mechanisms of humic acid adsorption on kaolinite were mainly ligand exchange , hydrogen and hydrophobic .

  5. 用丙烯酸类手性配位体交换树脂拆分DL-氨基酸的研究

    Study of Resolution of DL Amino Acids with Ligand Exchange Chiral Resins

  6. 手性配位体交换流动相添加剂法拆分对映体

    Enantiomeric Resolution by Chiral Ligand - Exchange Chromatography with Chiral Mobile Phase

  7. 身份的交换配位体交换树脂对中性氨基酸分离性能的研究

    Studies on the Capacity of Separation of Neutral Amino Acids with Ligand Exchange Resins

  8. 载铁(Ⅲ)-配位体交换棉纤维素吸附剂对饮用水中砷(Ⅴ)和氟联合去除的研究

    Combined Removal of Arsenic (ⅴ) and Fluoride from Drinking Water by Fe (ⅲ) - loading Ligand Exchange Cotton Adsorbent

  9. 核磁共振法测定烷基膦酸-硝酸铀酰体系的配位体交换反应速度常数及热力学函数

    Determination of ligand exchange rate constants and its thermodynamic functions in alkyl phosphonate-uo_2 ( no_3 ) _2 systems by 1H-NMR

  10. 综述指出,土壤中农药残留与有机质存在以下几种作用机理:共价键结合、离子键结合、电荷转移复合体、配位体交换、疏水性结合、螯合作用以及氢键和范德华力;

    The mechanisms of interaction between organic matter and pesticide residues as follows : covalent bonding , ionic bonding , charge transfer complexes , ligand exchange , sequestration , hydrophobic sorption , hydrogen bonding and Van der waals forces .