Size-Dependent Electrocatalytic Activities Of Printed Co3O4 Films For A Monolithic Photovoltaic-Electrolytic Hydrogen Generation System

摘要

As an electrocatalyst in a monolithic PV-electrolytic cell for water splitting hydrogen generation Co3O4 films were prepared by a paste coating method using Co3O4 particles. Different sized Co3O4 particles with average diameters of 145.9, 63.3 and 36.5 nm were prepared using a supercritical hydrothermal synthesis method. Electrochemical proper-ties with respect to the particle size in the film were investigated by evaluating over-potential, charge transfer resistance (Ret), and number of active sites (q*). The relation between overpotential in water oxidation at 5 mA/cm2 and BET surface area showed a slope of -73.8 ± 6.6, implying strong particle size dependence on electrocatalytic activity. Moreover, the Rct and q* values and the actual hydrogen evolution rate indicated that the electrocatalytic activity of Co3O4 is attributed to physical properties (e.g. particle size) of the film. Whereas, intrinsic single site activity of the film was not significantly changed with respect to the particle size in the film.