Abstract
In the present work, ternary CoCr
2
O
4
–Bi
2
WO
4
–NiS
2
nanocomposite (CCO–BWO–NS NC), a semiconductor photocatalyst, was prepared for the effective mineralization of doxycycline and photocatalytic removal of Cr(
vi
). Here, the modification of BiO–WO
4
–BiO (BWO) as a sandwich structure caused higher lattice oxygen vacancies. The decoration of NiS
2
(NS) on CCO–BWO enhanced the photocatalytic activity of the NC under visible-light irradiation. The photocatalytic degradation efficiency of doxycycline (doxy) and removal of Cr(
vi
) by the CCO–BWO–NS NC was found to be 99.8% and 94.7%, respectively. The subsurface and solid solution-type defect engineering was determined by X-ray photoelectron spectroscopy (XPS). Density function theory (DFT) calculations enabled the band structure and defect mechanism of the CCO–BWO–NS NC to be determined. Further, the photocatalytic efficiency was studied by varying the pH in the degradation of doxy and removal of Cr(
vi
). The total organic carbon (TOC) reduction after doxy photodegradation was found to be 98.6%. In addition, the genotoxicity of the CCO–BWO–NS NC was determined and the results showed that the CCO–BWO–NS NC had a comparatively lower genotoxicity and mitotic index, and no micronuclei were observed. Thus, the prepared CCO–BWO–NS NC was found be an excellent photocatalyst for the effective removal of doxy and Cr(
vi
). The study suggests that the CCO–BWO–NS NC could be an excellent photocatalyst for environmental water treatment.