PbO2+Co3O4, Tl2O3+Co3O4 and Ni+Co3O4 composite layers have been obtained by either anodic (oxide matrices) or cathodic (Ni-matrix) electrodeposition. Their electrocatalytic activity in the oxygen evolution reaction has been investigated with the aim of assessing the effect of concentration of Co3O4 and surface roughness. Different composites showed a different dependence of oxygen evolution current density on Co3O4 content. Only in the case of PbO2+Co3O4, the electrode effective area appeared to increase with the dispersed phase concentration, resulting in a non-linear relationship between oxygen evolution rate and Co3O4 content.
Electrodeposited composite electrode materials: Effect of the concentration of the electrocatalytic dispersed phase on the electrode activity
Guerriero P;Musiani M
1999
Abstract
PbO2+Co3O4, Tl2O3+Co3O4 and Ni+Co3O4 composite layers have been obtained by either anodic (oxide matrices) or cathodic (Ni-matrix) electrodeposition. Their electrocatalytic activity in the oxygen evolution reaction has been investigated with the aim of assessing the effect of concentration of Co3O4 and surface roughness. Different composites showed a different dependence of oxygen evolution current density on Co3O4 content. Only in the case of PbO2+Co3O4, the electrode effective area appeared to increase with the dispersed phase concentration, resulting in a non-linear relationship between oxygen evolution rate and Co3O4 content.| File | Dimensione | Formato | |
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Descrizione: Electrodeposited composite electrode materials: effect of the concentration of the electrocatalytic dispersed phase on the electrode activity
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