Anodic electrodeposition of cobalt oxides from an alkaline bath containing Co-gluconate complexes on glassy carbon. An electroanalytical investigation

In this study an electrodeposition procedure of cobalt oxides operating under anodic condition and directly from 0.5 M NaOH solutions containing 12 mM gluconate and 12 mM CoCl2 was defined for the modification of glassy carbon surface electrode. Different experimental approaches based on cyclic voltammetry, steady-state potentiostatic technique, chronoamperometry and scanning electron microscopy were used to characterize the deposited cobalt oxide films and to evaluate the kinetics and mechanism of electrodeposition. Some aliphatic aldehydes were tested as compound model in order to evaluate the electroanalytical properties of the electrodeposited cobalt film as active redox material for amperometric applications in strong alkaline aqueous solutions. Interesting results in terms of surface electrode modification “in situ” of glassy carbon substrate with cobalt oxides were obtained and critically discussed.

► The cobalt oxides were electrodeposited on glassy carbon surface from alkaline bath. ► Effect of potential and hydroxide/ligand ratio on the deposition was evaluated. ► Deposition mechanism involves an adsorption step of Co2L22− complex and hydroxide. ► Modified electrode acts as a sensing probe for the detection of aliphatic aldehydes.