Evaluation of diffusion coefficient of oxygen in liquid silver from AC impedance of an electrochemical cell based on solid electrolyte and molten silver electrode
N. Fukatsu et al., Evaluation of diffusion coefficient of oxygen in liquid silver from AC impedance of an electrochemical cell based on solid electrolyte and molten silver electrode, MATER TRANS, 42(6), 2001, pp. 1042-1047
The diffusion coefficient of oxygen in liquid silver was evaluated by analy
zing the relaxation process of the electrode reaction of an AC-polarized so
lid galvanic cell employing stabilized zirconia as the solid electrolyte an
d liquid silver as the electrode. The AC impedance of the cell was measured
for various amounts of oxygen at the silver electrode in the frequency ran
ge from 1 mHz to 1000 mHz at temperatures of 1273-1373 K. The well-defined
Warburg impedance, which was expected when the overall electrode reaction r
ate was controlled by the diffusion of oxygen in liquid silver, was obtaine
d for a certain limited condition. The diffusion coefficients determined fr
om this impedance agreed fairly well with those reported by other authors.
The factors causing errors in the evaluation of the diffusion coefficient w
ere examined.