Abstract
Molybdenum selenide has great potential for the degradation of water pollutants, but its performance is limited by the active sites and recombination of photogenerated electron-hole pairs. In this study, an amorphous co-doped MoSex (Co-MoSex) sample was synthesized by a low-temperature hydrothermal method. Three types of unsaturated Se-Se bonds were found in Co-MoSex by Raman spectroscopy: bridging diselenide, shared diselenide, and terminal diselenide. Photocatalytic experimental results revealed that the degradation rate of Co-MoSex to methylene blue was 96.3%, the degradation rate of amorphous MoSex (a-MoSex) was 61.6%, and the degradation rate of crystalline molybdenum selenide (c-MoSe2) was 23.2%. Furthermore, it was found that the band gap of the Co-MoSex photocatalyst was reduced by 0.15 eV compared to the a-MoSex photocatalyst. The photocatalytic activity of the co-doped MoSex was enhanced by increasing the unsaturated Se atom active sites, reducing the recombination of photogenerated electron-hole pairs, and improving light utilization.
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