Needle ZrOx loaded NiFe2O4 catalysts for Photo-Fenton degradation of bisphenol A and 4 nitrophenol
Velu Manikandan, Duraisamy Elango, Velu Subash, Ponnuchamy Kumar, Jeyakumar Saranya Packialakshmi, Palaniyappan Jayanthi, You Jae Sun, Kwang Soup Song
Abstract
This study investigates the synthesis of ZrOx-loaded NiFe2O4 photocatalysts (1, 2, and 3 wt%) through co-precipitation and wet impregnation methods for environmental and health applications. The structural analysis revealed a cubic crystal structure, with ZrOx doping enhancing charge separation and mobility by converting the morphology from fibrous to needle-like. Under visible light (VL) and H2O2 activation, the ZrOx(3 wt%)/NiFe2O4 composite achieved high degradation efficiencies (98.5% for Bisphenol A and 98.2% for 4-Nitrophenol) in 120 min via the Photo-Fenton mechanism. Kinetic analysis showed pseudo-first-order behavior with rate constants of 0.945 min−1 for BPA and 0.904 min−1 for 4-NP. The catalyst demonstrated stability with 91.5% efficiency retention after multiple cycles. DFT calculations indicated favorable HOMO-LUMO alignments and electrostatic potentials. Additionally, ZrOx(3 wt%)/NiFe2O4 exhibited selective cytotoxicity against breast cancer cell lines, while maintaining high viability in HEK-293 cells. The results suggest that ZrOx(3 wt%)/NiFe2O4 composites are promising for environmental and biomedical applications.