Zeta potential and photocatalytic activity of nitrogen doped TiO2 thin films

Abstract

Nitrogen doped TiO₂ films were fabricated by annealing anatase TiO₂ films in gaseous NH₃ . Nitrogen atoms in these films were substitutionaly introduced into oxygen sites of TiO₂ lattice. We have evaluated the zeta potential of these films and have found that it became negative with the amount of nitrogen doping. The photocatalytic decomposition of gaseous 2-propanol was examined under light-limited conditions, and the quantum yield (QY) was estimated while illuminating with ultraviolet (UV) and visible light (VIS). The QY values for the nitrogen doped TiO₂ film were 15.4% (UV) and 0.41% (VIS), whereas those for the pure TiO₂ film were 18.4% (UV) and 0% (VIS). In addition, the photocatalytic decomposition of ethylamine ions (CH₃CH₂NH₃ ⁺) was evaluated in an aqueous solution under UV illumination in a light-rich condition. Consequently, the decomposition rate of the nitrogen doped TiO₂ for aqueous ethylamine ions was higher than that of the pure TiO₂ because the surface of the nitrogen doped TiO₂ film was negatively charged and cationic ethylamine ions were efficiently adsorbed on its surface. The surface structure and the band structure of the nitrogen doped TiO₂ are discussed in this paper.