Electrocatalytic activity of Ni/Co3O4 obtained by span-60 sol-gel route for oxygen evolution in 1M KOH at 25℃

Abstract

Spinel-type cobalt oxide (Co₃O₄) was prepared by the span-60 sol-gel (SSG) method by using cobalt nitrates and span-60 and characterize by FT-IR, XRD and SEM techniques and also investigated its catalytic performance for electrochemical formation of oxygen in a basic medium. For electrochemical studies, cyclic voltammetry and Tafel polarisation techniques were employed and the observed results of investigation showed that the Co₃O₄ electrode possessed higher value of oxide roughness factor and hence have improved electrocatalytic activity for the oxygen evolution process (OER) in basic solution. The Tafel slope at low overpotential and order of reaction with regards to the variation of [  concentration were found to be 73 mV dec^-1 and (~1), respectively. The thermodynamic parameters such as standard electrochemical activation energy estimated for the Arrhenious plot and entropy of reaction were 35 kJ mol^-1 and 259 J deg^-1 mol^-1 for the OER. Highly negative value of entropy of the reaction indicated that electrocatalytic oxygen evolution by splitting water occurs via the mechanism involved the adsorption of reaction intermediate at the electrode surface.