Electrode Kinetics of Oxygen Reduction in Lithium Carbonate Melt: Use of Impedance Analysis and Cyclic Voltammetric Techniques to Determine the Effects of Partial Pressure of Oxygen

e, Bhasker B. Dav\, Ralph E. White, Supramanian Srinivasan, and John Appleby. 1991. “Electrode Kinetics of Oxygen Reduction in Lithium Carbonate Melt: Use of Impedance Analysis and Cyclic Voltammetric Techniques to Determine the Effects of Partial Pressure of Oxygen”. Journal of The Electrochemical Society 138 (3): 673-78.

Abstract

The effects of the partial pressure of oxygen and temperature on the oxygen reduction on a submerged gold electrode in a lithium carbonate melt were investigated using cyclic voltammetry and impedance analysis. The values for the mass-transfer parameters, Do 1/2 Co, obtained from cyclic voltammetry and impedance analysis were in good agreement. The reaction orders for oxygen at 800�C were calculated to be about 0.3 for the exchange current density and 0.5 for the product Do 1/2 Co; these values are consistent with the mechanism proposed in the literature for oxygen reduction in Li2CO3 melt.
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