Towards an efficient perovskite visible-light active photocatalyst

Abstract

The band gap of SrTiO3 retards its photocatalytic application. Regardless narrowing the band gap of the anion doped SrTiO3, the anion doping structures have low photoconversion efficiency. The co-cation dopings are used to modify the band gap and band edges positions of SrTiO3 to enhance the photocatalyitic properties by extending the absorption to longer visible-light. Using density functional calculations with the Heyd-Scuseria-Ernzerhof (HSE06) hybrid functional for exchange-correlation, the crystal and electronic structures as well as the optical properties of the mono and codped SrTiO3 are investigated. The (Mo, Zn/Cd) and (Ta, Ga/In) codoped SrTiO3 are explored in the way to retain the semiconductor characteristics of the latter. It is found that (Ta, Ga/In) codoping does not enhance the photocatalytic activity of SrTiO3 due to its large band gap. Moreover, the position of the conduction band edge of the (Mo, Cd) monodoping impedes the photocatalytic efficiency. The obtained results indicate that (Mo, Zn) codoped SrTiO3 can potentially improve the photocatalyitic activity.