Plasmon‐Assisted Water Splitting Using Two Sides of the Same SrTiO 3 Single‐Crystal Substrate: Conversion of Visible Light to Chemical Energy

A plasmon‐induced water splitting system that operates under irradiation by visible light was successfully developed; the system is based on the use of both sides of the same strontium titanate (SrTiO 3 ) single‐crystal substrate. The water splitting system contains two solution chambers to separate hydrogen (H 2 ) and oxygen (O 2 ). To promote water splitting, a chemical bias was applied by regulating the pH values of the chambers. The quantity of H 2 evolved from the surface of platinum, which was used as a reduction co‐catalyst, was twice the quantity of O 2 evolved from an Au‐nanostructured surface. Thus, the stoichiometric evolution of H 2 and O 2 was clearly demonstrated. The hydrogen‐evolution action spectrum closely corresponds to the plasmon resonance spectrum, indicating that the plasmon‐induced charge separation at the Au/SrTiO 3 interface promotes water oxidation and the subsequent reduction of a proton on the backside of the SrTiO 3 substrate. The chemical bias is significantly reduced by plasmonic effects, which indicates the possibility of constructing an artificial photosynthesis system with low energy consumption.