Fabrication of CdMoO4@CdS core–shell hollow superstructures as high performance visible-light driven photocatalysts

Abstract

CdMoO₄@CdS core–shell hollow microspheres with the diameter of 2–3 μm were synthesized through a simple ion exchange hydrothermal method by using CdMoO₄ solid microspheres as the sacrificial template in the presence of thioacetamide (TAA). Based on the detailed investigation it was found that the concentration of TAA in the starting solution affects the size of the CdS nanosheets and the hollowing process. At the TAA concentration of 0.1 M, CdMoO₄@CdS core–shell hollow spheres with a CdS nanosheet thickness of 50–100 nm were obtained. The formed CdS nanosheets have a hexagonal wurtzite structure and exhibit good size uniformity and regularity. Furthermore, the photocatalytic activity of the as-prepared samples was evaluated towards degradation of Rhodomine B (RhB) aqueous dye solution under visible-light. Compared to CdMoO₄ microspheres, CdMoO₄@CdS core–shell hollow microspheres show enhanced photocatalytic activity. The observed photocatalytic performance was attributed to the synergetic effects of composite morphology, pore structure, and exposed two-dimensional (2D) CdS nanosheets with dominant 001 facets in CdMoO₄@CdS core–shell hollow microspheres. Furthermore, the growth mechanism of CdMoO₄@CdS hollow microspheres was discussed in detail.