Abstract
Copper hexaoxodivanadate (CuV2O6) and copper pyrovanadate (Cu2V2O7) films were fabricated via electrostatic spray deposition for use as photoanodes for solar water splitting. The fabricated films were characterized by scanning electron microscopy, X-ray photoelectron spectroscopy, Raman spectroscopy, Transmission electron microscopy and X-ray diffraction analysis. The highest photocurrent density observed was 0.65 mA⋅cm−2 for a spraying time of 5 min in a mixed aqueous electrolyte consisting of 0.1 M borate and 0.1 M Na2SO3. The high photocurrent density is attributable to an improvement in the electrochemical kinetics at the electrode surface because of the scavenging holes from the electrolyte. The optimal annealing temperature was determined to be 500 °C. Further, Cu2V2O7 was confirmed to be more suitable than CuV2O6 with respect to water splitting, as it exhibited a higher photocurrent density.
•Superior water splitting performance was demonstrated via electrostatic spray-deposited copper vanadate films.•Smaller crystal sizes with increased numbers of reaction sites provided higher PCD.•The film thickness also affected the phenomena of light absorption and charge recombination.