Influence of annealing conditions on anodic tungsten oxide layers and their photoelectrochemical activity

Abstract

The nanoporous tungsten oxide films having an amorphous structure were prepared in an electrolyte containing fluoride ions via an anodization process. The as-synthesized anodic oxide layers can be easily converted to the monoclinic WO3 phase upon annealing in air. The as-synthesized and annealed WO3 layers were investigated by using X-ray diffraction, scanning electron microscopy, and photocurrent spectroscopy. The effect of annealing temperature and annealing time on the oxide morphology, crystal structure and electrochemical properties were studied. The samples were annealed in air at the temperatures ranging from 400 to 600°C, and it was found that the original porous morphology of oxide is completely lost after annealing at 600°C. The changes in the average crystallite sizes upon annealing were confirmed by XRD measurements. The photoelectrochemical performance of the annealed WO3 layers were studied under pulsed UV illumination, and the highest photocurrents were observed at the incident light wavelength of 350nm for the sample annealed at 500°C for 2h. The band gap energy and the positions of conduction and valence band edges were determined for all studied samples.