Synthesis and Kinetic of Palladium Nanotube Using Polymer Compound

Jong Ho Lee; Choong Soo Chi; Han Jun Oh

doi:10.4028/www.scientific.net/KEM.543.137

Paper Titles

Gas Sensing Performance of Macroporous SnO₂ Thin Film Prepared by Using Carbonaceous Polysaccharide Microspheres as Pore-Forming Agent
p.121

Advantages of the Use of Metal Foams for Electromagnetic Shielding
p.125

Analyzing the Response of a Temperature Modulated Tin-Oxide Gas Sensor Using Local Linear Neuro-Fuzzy Model for Gas Detection
p.129

Intelligent Metal Detector
p.133

Synthesis and Kinetic of Palladium Nanotube Using Polymer Compound
p.137

Photocatalytic Characteristics of Titania Thin Film Prepared by Micro Arc Oxidation
p.141

H₂S Sensing Properties of Added Copper Oxide in WO₃
p.145

Electrical Characterization of MOS Structures with Silicon Nanocrystals Suitable for X-Ray Detection
p.150

Thermally Stimulated Discharge Currents of Poly(acrylonitrile-co-acrylic Acid)-Polypyrrole Composites
p.154

HomeKey Engineering MaterialsKey Engineering Materials Vol. 543Synthesis and Kinetic of Palladium Nanotube Using...

Synthesis and Kinetic of Palladium Nanotube Using Polymer Compound

Abstract:

The palladium nanotube was synthesized by template wetting and annealing process. And the activation energy for formation of the palladium metal from palladium acetate was evaluated. The activation energy was evaluated by Friedman method and the values were in the ranges between 65 and 98 kJ/mol. The diameters and lengths of synthesized palladium nanotubes ranged from 130 to 190 nm and from 2 to 3 μm, respectively. The palladium nanotubes can be successfully fabricated by the template wetting process, and the crystalline structure is confirmed by XRD. From DSC results the thermal decomposition of precursor containing palladium acetate/PLLA occurred at 248°C, which corresponds to the precipitation of palladium metal.