Synthesis and optimization of photocatalytic performance of WO₃-loaded TiO₂nanotube array layers

Abstract: TiO 2 nanotube arrays were grown by anodic oxidation of the surface of Ti metal foils in an electrochemical cell with organic electrolyte containing fluorine, using constant bias voltage, 30 V. The average typical diameter and length of the as-prepared tubes were 87 nm and 3.8 μm, respectively. The titania nanotube arrays surface was subsequently loaded with WO 3 noncontiguous thin layers by plasma-assisted RF sputtering. The addition of WO 3 on the nanotube surface resulted in the formation of semiconductor h… Show more

“…The presence of a mixture of oxide bonds from several elements in the thin films compositions indicates the possibility of obtaining different surface reactivity by customizing their ratio. Modifying the flow of Oxygen and thus its availability during layer growth can influence the stoichiometry of the layers and enhance the presence of suboxides, modifying the energy band configuration in such heterojunction materials [41,42]. This aspect is directly related to the surface reactivity of semiconductor materials (e.g.…”

Concentric double hollow grid cathode discharges. Spectral investigations and phenomenological approach

“…The presence of a mixture of oxide bonds from several elements in the thin films compositions indicates the possibility of obtaining different surface reactivity by customizing their ratio. Modifying the flow of Oxygen and thus its availability during layer growth can influence the stoichiometry of the layers and enhance the presence of suboxides, modifying the energy band configuration in such heterojunction materials [41,42]. This aspect is directly related to the surface reactivity of semiconductor materials (e.g.…”

Concentric double hollow grid cathode discharges. Spectral investigations and phenomenological approach

Enhanced photoelectrocatalytical activity and stability of Z-scheme heterojunction Black Ti3+ self-doping TNT/Ag/WO3 nanosheet under visible light