Abstract
AbstractThe present study reports electrocatalytic activity towards methanol oxidation of mesoporous NixCo3‐xO4‐y fabricated through a metal‐organic framework (MOF) template route. MOF‐derived NixCo3‐xO4‐y nanocages exhibit a methanol oxidation reaction (MOR) current of approximately 200 Ag−1 at 0.55 V versus Hg‐HgO, which is around 12 times higher than that from Co3O4. Improved activity for the catalyst is ascribed to its higher number of catalytic active sites and non‐stoichiometry in the composition. The improved charge‐transfer kinetics for the MOR is evident from the electrochemical impedance measurements, where a lower charge‐transfer resistance is observed for NixCo3‐xO4‐y nanocages and the trend is consistent with the MOR results. The potential‐dependent impedance measurements suggest that direct electrochemical MOR is facilitated through a surface intermediate, where the surface intermediates (CH3OH or CO) are adsorbed on low coordinated Ni and Co sites, respectively.
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