| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 147426 | Chemical Engineering Journal | 2014 | 9 Pages |
•Designed fabrication of uniform acicular sheaf shaped BiVO4/RGO composites was reported.•The photocatalytic properties of pure BiVO4 and BiVO4/RGO composites were studied upon sunlight irradiation.•The mainly active species (h+) involved in the photocatalytic process were probed.•The cycle-stability of the BiVO4/RGO photocatalysts was examined.
A simple and cost-effective method for the tailored synthesis of uniform three dimensional (3D) acicular sheaf shaped BiVO4 architectures under mild conditions was designed, where the as-synthesized BiVO4 products were then incorporated with prepared reduced graphene oxide (RGO) sheets to form novel BiVO4/RGO composites. The obtained composites were well characterized with the aid of various techniques to study their morphological, physical, optical, and photo-chemical properties. Photocatalytic performances of the pure 3D BiVO4 architectures and BiVO4/RGO composites have been evaluated by investigating the degradation of Rhodamine B-contained wastewater under natural sunlight irradiation, where the BiVO4/RGO composites displayed enhanced sunlight-driven photocatalytic activities. The effects of the active species involved in the photocatalytic process and the cycle-stability of the as-obtained BiVO4/RGO photocatalysts have also been examined.
Graphical abstractTailored synthesis of uniform 3D acicular sheaf shaped BiVO4/RGO composites is achieved under mild conditions, which exhibit enhanced performances in the photocatalytic degradation of Rhodamine B under natural sunlight irradiation.Figure optionsDownload full-size imageDownload as PowerPoint slide
