Abstract
The WO(3) photoanode has great potential application for solar photoelectrochemical water oxidation due to suitable band edge positions with water oxidation potentials. However, it suffers from poor light absorbance in the visible region. Here, we use Eu(3+)-doped Y(2)O(3) nanoparticles (NPs) in combination with plasmonic gold (Au) NPs to better utilize and adsorb photons from UV and visible regions of sunlight. We attached plasmonic Au NPs on WO(3) to enhance the photocatalytic properties due to the plasmon resonance mechanism. Additional deposition of Y(2)O(3):Eu(3+) NPs on Au NPs/WO(3) improved the photoactivity of the photoanode further. Y(2)O(3):Eu(3+) NPs' downconversion property, along with their light-scattering effect, converts ultraviolet-region photons into visible-region photons and enforces the plasmon resonance mechanism of Au NPs. Experimental results show the increase of absorbance, improvement of electron-hole separation, and enhancement in photocurrent generation of the resultant photoelectrode.