The Study of Hydrophilicity and Optical Properties of Zn and N-doped TiO2 Thin Films

Abstract

Among the wide bandgap semiconductors, TiO2 is the highly stable and cost-efficient semiconductor used for the different photocatalysis processes like water splitting, chemical waste degradation, anti-micro bacterial activities, and more. Materials showing high hydrophilicity (surface phenomenon) with low bandgap are required to improve photocatalysis efficiency. We report the synthesis of Zn (4 wt.%) and N (4 wt.%) doped TiO2 thin films using the spin coating technique to improve surface wettability. The XRD pattern shows the growth of the pure anatase phase of TiO2. UV absorption spectra show a minor increment in the bandgap of the Zn and N doped TiO2 thin films. The water contact angle with pure TiO2 is 33.45 and reduces to 17.94 after 4wt% doping of Zn and N. The results show the enhanced hydrophilicity in the Zn and N doped TiO2 thin films.