Construction of p-n heterostructured BiOI/TiO2 nanosheets arrays for improved photoelectrochemical water splitting performance

The construction of p-n heterojunction is one of the effective strategies to improve the spatial charge separation due to built-in electric field. In this study, the p-type BiOI ultrathin 2D nanoplates decorated n-type TiO2 nanosheets arrays (TNS) heterojunction photoanode was successfully fabricated through hydrothermal methods. The photocurrent density achieved for optimized BiOI/TNS photoanode was 0.54 mA cm(-2) at 1.23 V vs. RHE, which is 15 times higher than that of unmodified TNS photoelectrode (0.036 mA cm(-2)) under simulated sunlight irradiation without any cocatalyst. In addition, the onset potential of BiOI/TNS photoanodes has a certain negative shift from 0.5 to 0.3 V, which can demonstrate BiOI/TNS photoanodes possesses better catalytic activity and kinetics for water oxidation. The excellent photoelectrochemical activity of BiOI/TNS could be attributed to the type-II energy structure of BiOI/TiO2 photoanode, the built-in electric field of p-n heterojunction, and TiO2 nanosheets arrays with high exposed {0 0 1} facets.

Automated summary

In this study, a p-n heterojunction photoanode consisting of p-type BiOI ultrathin 2D nanoplates decorated n-type TiO2 nanosheets arrays was fabricated successfully, exhibiting excellent photoelectrochemical activity attributed to the energy structure and built-in electric field.