Photocatalytic Degradation of a Herbicide Namely Glyphosate and Hexazinone from the Surface Water which will be Used as Drinking Water via $$Polyaniline/ZnWO_{4}/WO_{3}$$ and Evaluation of Acute Toxicity Assays

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Abstract: Polyaniline/Zinc tungsten oxide/Tungsten trioxide nanocomposites (PANI/ZnWO4/WO3 NCs) was prepared to remove glyphosate (GLP) and Hexazinone (HZN) herbicides from the surface water. The properties of $$PANI/ZnWO_{4}/WO_{3} NCs$$ was investigated using XRD, FTIR, FESEM, HRTEM, XPS analyses. The toxicity of NCs and treated wastewater were investigated using Microtox and Daphnia magna acute toxicity tests. The effects of increasing values of $$PANI/ZnWO_{4}/WO_{3} NCs$$ concentrations (0.1, 0.4, 0.6, 1.0 and 1.5 mg/l), $$PANI/ZnWO_{4}/WO_{3} $$ mass ratios (1:1:3, 1:2:3, 3:1:1 and 3:2:1), GLP concentrations (1, 2, 3 and 4 mg/l), photodegradation times (2, 10, 15 and 20 min), and solar light powers ($$20, 40, 60, 80 and 100 W/m^{2}$$) on the GLP and HZN removals in the surface were examined. The results of the acute toxicity analysis performed showed that the acute toxicity in the surface water decreased significantly after photooxidation. The maximum removal conditions for 3 mg/l GLP (99.90%) were 1 mg/l $$PANI/ZnWO_{4}/WO_{3} NCs$$ with a $$PANI/ZnWO_{4}/WO_{3} NCs$$ ratio of 1:2:3 after 15 min photodegradation time at $$80 W/m^{2}$$ sun light power while the maximum HZN removal was obtained as 96% after 15 min photodegradation, under 300 W solar light, at pH=7.0 and at 25oC. The crystalline monoclinic $$ZnWO_{4}$$ and $$WO_{3}$$ was detected from XRD analysis while PANI exhibited characteristic broad peak at 28.91° with an amorphous nature. FTIR spectra showed that pure $$ZnWO_{4}$$ has the Zn–O–W vibrational bands. XPS analysis, exhibited reactive oxygen species. The charge/discharge analysis indicated that $$WO_{3}$$ has a larger particle size that decreases surface density increasing the interplanar spacing between atoms. The introduction of $$ZnWO_{4}$$ and $$WO_{3}$$ nanoparticles into the PANI matrix enhanced the surface of the $$PANI/ZnWO_{4}/WO_{3} NC$$.

International Journal of Chemical Engineering and Materials, E-ISSN: 2945-0519, Volume 3, 2024, Art. #9

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Ruki̇ye Özteki̇n, Deli̇a Teresa Sponza, "Photocatalytic Degradation of a Herbicide Namely Glyphosate and Hexazinone from the Surface Water which will be Used as Drinking Water via $$Polyaniline/ZnWO_{4}/WO_{3}$$ and Evaluation of Acute Toxicity Assays," International Journal of Chemical Engineering and Materials, vol. 3, pp. 66-100, 2024, DOI:10.37394/232031.2024.3.9
Ruki̇ye Özteki̇n, Deli̇a Teresa Sponza. Photocatalytic Degradation of a Herbicide Namely Glyphosate and Hexazinone from the Surface Water which will be Used as Drinking Water via $$Polyaniline/ZnWO_{4}/WO_{3}$$ and Evaluation of Acute Toxicity Assays. International Journal of Chemical Engineering and Materials. 2024;3:66-100. 10.37394/232031.2024.3.9
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