LAUSR

Abstract BiVO4 is a promising light harvester for the construction of photoanode for the solar-driven water splitting but it suffers of low charge mobility and slow oxygen evolution reaction kinetics. Herein, we report on a novel strategy using AgOx (e.g. Ag2O and AgO) nanoparticles as hole collector to boost the BiVO4 photoanode to its best photocatalytic performance. AgOx helps to boost the charge transfer efficiency at the BiVO4/electrolyte interface up to 93%, being much higher than 40% achieved for a bare BiVO4 photoanode. AgOx also contributes to improve the photostability of BiVO4 by offering an efficient quenching of the photogenerated holes which are harmful to the BiVO4, e.g. causing an oxidative dissolution of V. In a pH 7 phosphate buffer electrolyte and under 1 sun illumination, the best BiVO4/AgOx photoanode generates a photocatalytic current density of 4.65 mA/cm2 at 1.23V vs. RHE. It represents 2.3-fold improvement of activity in comparison to a bare BiVO4 without AgOx decoration. The current BiVO4/AgOx can be placed among the top-tier photoanodes for solar water splitting made of BiVO4 light harvester.