Insight into the improvement mechanism of Co−Pi-modified hematite nanowire photoanodes for solar water oxidation

The composite photoanodes composed by cobalt phosphate catalyst (Co−Pi) modified semiconductor have been widely used for solar water splitting, but the improvement mechanism has not been experimentally confirmed. Here we use transient photoelectrochemical measurements and impedance spectroscopy to investigate the effect of Co−Pi catalyst on hematite nanowire photoanode. It is found that under illumination the Co−Pi catalyst can efficiently promote the transfer of photo-generated holes to the Co−Pi layer by increasing the electrical conductivity of the composite structure under a low potential. The Co−Pi catalyst can recombine with photo-generated electrons to reduce the surface recombination efficiency of photo-generated holes and electrons under a high potential. These results provide important new understanding of the performance improvement mechanism for the Co−Pi-modified semiconductor nanowire composite photoanodes.