Journal
PLANTS-BASEL
Volume 10, Issue 1, Pages -Publisher
MDPI
DOI: 10.3390/plants10010006
Keywords
acetamprid; wastewater treatment; response surface methodology; magnetic ferrites
Categories
Funding
- Higher Education Commission (HEC), Pakistan, under Indigenous Scholarship Batch 5 [085-13101-Ps5-226]
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In this study, GO-doped metal ferrites were prepared and characterized for their photocatalytic potential in degrading acetamiprid. The results showed that the catalysts exhibited excellent performance under optimized reaction conditions, achieving high degradation rates for the pesticide.
Pesticides are one of the main organic pollutants as they are highly toxic and extensively used worldwide. The reclamation of wastewater containing pesticides is of utmost importance. For this purpose, GO-doped metal ferrites (GO-Fe3O4 and GO-CoFe2O4) were prepared and characterized using scanning electron microscopy, X-ray diffraction and Fourier transform infrared spectroscopic techniques. Photocatalytic potentials of catalysts were investigated against acetamiprid's degradation. A detailed review of the parametric study revealed that efficiency of overall Fenton's process relies on the combined effects of contributing factors, i.e., pH, initial oxidant concentration, catalyst dose, contact time, and acetamiprid load. similar to 97 and similar to 90% degradation of the acetamiprid was achieved by GO-CoFe2O4 and GO-Fe3O4, respectively during the first hour under UV radiations at optimized reaction conditions. At optimized conditions (i.e., pH:3, [H2O2]: 14.5 mM (for Fe3O4, GO-Fe3O4, and GO-CoFe2O4) and 21.75 mM (for CoFe2O4), catalysts: 100 mgL(-1), time: 60min) the catalysts exhibited excellent performance, with high degradation rate, magnetic power, easy recovery at the end, and efficient reusability (up to 5 cycles without any considerable loss in catalytic activity). A high magnetic character offers its easy separation from aqueous systems using an external magnet. Moreover, the combined effects of experimental variables were assessed simultaneously and justified using response surface methodology (RSM).
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