Ionic Mass Transfer Rate Accompanying Pulsed Current Electrodeposition of Silver
スポンサーリンク
概要
- 論文の詳細を見る
Transient mass transfer rate of Ag+ ion associated with natural convective electrolyte flow developing along the vertical plane electrodes immersed in a stagnant AgNO3 aqueous electrolyte solution is numerically analyzed under both direct and pulsed current conditions. The cathodic concentration profile of Ag+ ion caused by silver electrodeposition was measured by the holographic interferometer. Calculated results are compared with the measured values. Under direct current condition, it is found that quantitative agreement between calculated and measured results is obtained at the lower current density, while an obvious deviation is noticed at the higher one due to the laser beam deflection effect as well as the concentration dependence of transport properties. Additionally, it may be related to the fact that the effective cathode surface area apparently increases due to the roughening of the cathode surface by silver electrodeposition. Under pulsed current condition, reasonable agreement is obtained even at the higher pulse current density. It may be ascribed to the fact that pulse electrolysis reduces the nodular growth, edge build up, and surface roughness development.
- 一般社団法人 日本MRSの論文
一般社団法人 日本MRS | 論文
- Tight Bonding between Two Sheets of Biaxially Oriented Polyester Induced by Exposure to Oxygen-Implicated Plasma
- Biocompatible Evaluation of Ion-beam Irradiated PTFE Felt
- Quantitative Evaluation of Copper Nano Cluster Combination Process by Multi Vacancy Lattice Monte Carlo Simulation
- Estimation of Thermal Decomposition on Amorphous Carbon Films
- Fluorescent Organic Nanoparticles