BiVO<sub>4</sub> Photoanodes Enhanced with Metal Phosphide Co‐Catalysts: Relevant Properties to Boost Photoanode Performance
Junyi Cui, Mátyás Dabóczi, Zhenyu Cui, Mengjun Gong, Joseph M. Flitcroft, Jonathan M. Skelton, Stephen C. Parker, Salvador Eslava
Abstract
Abstract Achieving highly performant photoanodes for oxygen evolution is key to developing photoelectrochemical devices for solar water splitting. In this work, BiVO 4 photoanodes are enhanced with a series of core–shell structured bimetallic nickel‐cobalt phosphides (MPs), and key insights into the role of co‐catalysts are provided. The best BiVO 4 /Ni 1.5 Co 0.5 P and BiVO 4 /Ni 0.5 Co 1.5 P photoanodes achieve a 3.5‐fold increase in photocurrent compared with bare BiVO 4 . It is discovered that this enhanced performance arises from a synergy between work function, catalytic activity, and capacitive ability of the MPs. Distribution of relaxation times analysis reveals that the contact between the MPs, BiVO 4 , and the electrolyte gives rise to three routes for hole injection into the electrolyte, all of which are significantly improved by the presence of a second metal cation in the co‐catalyst. Kinetic studies demonstrate that the significantly improved interfacial charge injection is due to a lower charge‐transfer resistance, enhanced oxygen‐evolution reaction kinetics, and larger surface hole concentrations, providing deeper insights into the carrier dynamics in these photoanode/co‐catalyst systems for their rational design.