Abstract:Ag@AgBr/graphene oxide (GO)/Ni surface plasma film electrode containing a small amount of GO was prepared by electrochemical co-deposition method. The surface morphology of the film electrode shows the corrugated structure of GO covers on the surface of AgBr particles. Ag nanoparticles are distributed on the surface of AgBr and near the contact edge between the GO and AgBr. The size distribution of Ag nanoparticles ranges from 10 nm to 120 nm, showing a normal distribution trend, and the particle size is mostly 50-80 nm. Ag@AgBr/GO/Ni film electrode as photocathode has excellent photoelectrocatalytic (PEC) activity and cycle stability. A major difference between the photoelectrochemical reaction under visible light irradiation and the dark electrochemical reaction arose from photocurrent produced by the transition of a photogenerated electron from the valence band to the conduction band. Under visible light irradiation and optimum cathode bias, the good photoelectric synergistic effect, the excellent electroconductivity of GO and the enhanced surface plasmon effect of large Ag nanoparticles are the main reasons for the excellent PEC performance of Ag@AgBr/GO/Ni film electrode.

Key words: Ag@AgBr/GO/Ni film electrode; surface plasmon resonance; photocathode; charge transfer mechanism; photoelectrocatalytic