Photocatalytic Degradation of Trifluralin in Aqueous Solutions by UV/S2O82− and UV/ZnO Processes: A Comparison of Removal Efficiency and Cost Estimation

Abstract: Trifluralin is one of the most widely used herbicides, being accounted as the cause of cancer in human. In the present research, the UV/S2O82− and ZnO/UV processes’ efficiency in the removal of trifluralin was investigated. A lab scale equipped with a UV lamp was applied. The parameters were studied, including initial trifluralin concentration (0.4–1.2 mg/L), contact time (20–60 min), S2O82− concentration (20–60 μM), and ZnO concentration (50–150 mg/L). The remained trifluralin concentration was measured by HP… Show more

“…e large-scale use of pesticides causes the pollution of water and soil resources [1,2]. Methyl-parathion hydrolase (MPH, E.C.3.1.8.1) could catalyze the hydrolysis of methyl-parathion and other organophosphorus pesticides [3].…”

Improving Catalytic Activity and Thermal Stability of Methyl-Parathion Hydrolase for Degrading the Pesticide of Methyl-Parathion

“…e large-scale use of pesticides causes the pollution of water and soil resources [1,2]. Methyl-parathion hydrolase (MPH, E.C.3.1.8.1) could catalyze the hydrolysis of methyl-parathion and other organophosphorus pesticides [3].…”

Improving Catalytic Activity and Thermal Stability of Methyl-Parathion Hydrolase for Degrading the Pesticide of Methyl-Parathion

Synthesis of Potato-Starch Based Bio-nanocomposite for the Removal of Trifluralin Under Visible Light Illumination

Application of machine learning models to improve the prediction of pesticide photodegradation in water by ZnO-based photocatalysts