Research on Macro Cyclic Polyamine Complexes of Transition Metal and Catalytic Properties

Hong Lei

doi:10.4028/www.scientific.net/AMR.850-851.24

Paper Titles

Impact of Drain-Side nWell Engineering on ESD Robustness in 0.35μm LV MOSTs
p.7

Study on the Properties of Photocatalytic Degradation of DMP on WO₃/TNAs Photoelectrodes
p.12

Dispersion and Stability of Nanoalumina in Solution Prior to Exposure
p.16

Calculation Method of the Lattice Constants of Crystal at Different Temperature and Pressure
p.20

Research on Macro Cyclic Polyamine Complexes of Transition Metal and Catalytic Properties
p.24

Ion Transport and Lithium Battery Characteristics of a Novel Composite Electrolyte Based on PEO Complexed with Lithium Salt
p.28

The Interaction of Mixing Odorants with Similar Chemical Properties: A Case Study on Ketone Compounds
p.32

Exposure Assessment of Nano-CaCO₃ Manufacturing Workplaces
p.38

Crystal Structure and Fluorescence of 4,4'-(o-Benzonitrile) Divinylbenzene
p.45

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Research on Macro Cyclic Polyamine Complexes of Transition Metal and Catalytic Properties

Abstract:

This article Synthesis of carbohydrate ligands of coordination ability, to react with metal Chlorides to get more stable complexes, and elemental analysis, infrared, Ultraviolet Spectroscopic characterization and analysis of nuclear magnetic resonance. Characterization of its structure and study on the hydrolysis activity of pnitrophenyl picolinate lipid and the activity of pnitrophenol solution of phosphate, disodium macrocyclic polyamine catalyzed by macrocyclic polyamine metal complexes. The results show that the effect of hydrolytic activity of macrocyclic polyamine complexes is much larger than the hydrolysis activity of ordinary metal complexes; it can be important significance to find a better way of cutting nucleic acid by hydroxylation.