Anisotropic relaxation of a CuO/TiO2 surface under an electric field and its impact on visible light absorption: ab initio calculations

Ab initio calculations on the anisotropic relaxation of a CuO/TiO 2 surface under electric fields and the visible light absorption of these relaxed surfaces are reported. We compare the relaxation of the CuO/TiO 2 surface under the electric fields in the direction of [001] or [010]. Fewer Cu-O bonds with highly coordinated Cu-ions are found in the CuO/TiO 2 relaxed surface under the electric field in the [010] direction. The Cu-O bonds in the interface of the CuO/TiO 2 surface led to an improved visible light absorption in the polarization direction of [001]. The CuO/TiO 2 relaxed surface under the electric field in the [010] direction exhibits a more effective absorption of visible light. However, the electric field in the [001] direction induces more relaxation on the CuO/TiO 2 surface, breaking the Cu-O bonds. This leads to the partial reduction of CuO to Cu 2 O on the CuO/TiO 2 relaxed surface under the electric field in the [001] direction and inefficient absorption of visible light is observed for this surface. A CuO/TiO 2 layer under a 10.4 MV cm −1 electric field in the [010] direction achieves enhanced absorption of visible light due to the Cu-O bond.