Enhanced photocatalytic activity of TiO2/Au/TiO2/Au stacked nanostructures synthesized via sputtering and subsequent annealing

We synthesized TiO₂/Au/TiO₂/Au (IMIM) stacked nanostructure composed of TiO₂ thin films (TFs) and Au nanoparticles (NPs). The TFs of TiO₂ were deposited by sputtering Ti targets in Ar/O₂ gas, followed by annealing to induce the anatase phase. The Au NPs were deposited by sputtering an Au target in Ar gas and then annealed to form the NPs. The nanostructures made of TiO₂/Au/TiO₂ (MIM) and TiO₂/Au (IM) were synthesized for the purpose of comparison. The photocatalytic activity was evaluated by measuring organic decomposition and bacterial inactivation under ultraviolet and visible light irradiation, with the visible light wavelength matching the localized surface plasmon resonance (LSPR) of Au NPs. The photocatalytic performance of IMIM was more enhanced than TiO₂ TF as the visible light intensity increased. The IMIM also outperformed the MIM and IM nanostructures. The improved photocatalytic activity would be attributed to the hot electron transfer from Au NPs to TiO₂, originating from the visible-light-driven LSPR at the TiO₂/Au interface at the top of IMIM. Additionally, the increased visible light absorption attributed to more oxygen vacancies in the top TiO₂ layer due to Au NPs and a rougher surface due to the top TiO₂ layer would enhance the photocatalytic activity.