Enhanced fast green dye degradation and biological activity of green synthesized Se@ZnO photocatalysts using Ficus religiosa plant extract

Biomass Conversion and Biorefinery, Journal Year: 2025, Volume and Issue: unknown

Published: March 6, 2025

Language: Английский

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Neonicotinoid insecticide sulfoxaflor in the environment: A critical review of environmental fate, degradation mechanism, and toxic effects

Environmental Science Processes & Impacts, Journal Year: 2025, Volume and Issue: unknown

Published: Jan. 1, 2025

In recent decades, neonicotinoids (NEOs) have become widely adopted in agriculture for the control of crop pests and plant pathogens, leading to improved yields enhanced agricultural productivity. However, prolonged widespread use NEOs has raised significant concerns regarding their environmental persistence, food safety, public health risks. These pesticides been shown contaminate various compartments, including soil, surface water, groundwater, posing potential hazards ecosystems human health. Microbes play a crucial role mitigating impact toxic pesticides, with microbial degradation emerging as promising, cost-effective strategy degrading pesticide residues. Several sulfoxaflor (SUL)-degrading microbes isolated characterized, yet identification microbes, genes, enzymes responsible remains an area requiring further investigation. Despite some progress, few reviews comprehensively addressed underlying mechanisms degradation. This paper provides detailed review research on distribution, exposure risks, ecotoxicological effects NEOs, particular focus fate SUL. It aims offer novel perspective environment, toxicological effects, impact.

Language: Английский

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Photocatalytic oxidation of antibiotic residue and organic dye pollutant using noble metal-doped ZnO: Reducing environmental and health risks

Journal of Environmental Science and Health Part B, Journal Year: 2025, Volume and Issue: unknown, P. 1 - 9

Published: April 8, 2025

Water pollution associated with antibiotic residues and colored organic pollutants leads to various potential risks human health the environment. This work develops an economical method that is suitable for removing both from water. The oxidation process based on a noble metal (Ag)-doped zinc oxide photocatalyst (Ag-ZnO) was selected as strategy investigation. Besides, tetracycline (A-Tc) methylene blue-colored (D-Mb) were target contaminants. With light assistance, Ag-ZnO showed significantly improved degradation efficiency A-Tc D-Mb at 90.6 97.3%, respectively. advantages of are also confirmed by faster rate constants, which more than twice fast those undoped sample. mineralization shows 93.5% 98.7% carbon removed solutions, result suggests being converted into inorganic substances. In addition, benefits using enhance safety, reduce negative effects environment, decrease treatment costs discussed.

Language: Английский

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An approach for the treatment of chlorpyrifos and atrazine pesticides using graphitic carbon nitride photocatalyst

Journal of Environmental Science and Health Part B, Journal Year: 2025, Volume and Issue: unknown, P. 1 - 8

Published: April 15, 2025

This study evaluated an effective approach for the removal of chlorpyrifos (Chp) and atrazine (Atz) pesticides using graphitic carbon nitride photocatalyst (g-CN). Experimental results showed that under solar light, g-CN was able to remove 82.4% Chp 73.6% Atz at initial concentration 10 mg L-1. It also exhibited total organic efficiency 95.3% 84.7% after 150 min. Besides, is more with a degradation around 10% higher than visible light. The characterization confirmed high purity its strong UV light absorption ability, some extension into region. In addition, recent methods used were discussed evaluated. photocatalytic process most widely method removing compared other techniques. However, development suitable materials based on should be further explored enhance their

Language: Английский

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