期刊
COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS
卷 665, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.colsurfa.2023.131206
关键词
Silver -doped titanium dioxide; Nanomaterial; Green chemistry; Turmeric extract; Vacancy formation; Photocatalysis
This study employed a reducing agent derived from turmeric extract to design a green and cost-effective method for producing silver-doped titanium dioxide (Ag-TiO2) for the photodegradation of methylene blue (MB). The optimal amount of Ag on TiO2 modification resulted in improved visible light absorption and increased photocatalytic efficiency. The 3 %Ag-TiO2 exhibited the highest photocatalytic activity, achieving 80% MB degradation under visible light for 9 hours. This method provides a straightforward and environmentally friendly route for the synthesis of visible-light-active Ag-TiO2 nanoparticles for wastewater treatment.
Green chemistry is considered a feasible alternative to traditional chemistry and can be applied to the synthe-sizing of nanomaterials. The current work employed a reducing agent derived from turmeric extract to design an environmentally friendly and cost-effective plant-mediated method for producing silver-doped titanium dioxide (Ag-TiO2) for the photodegradation of methylene blue (MB). The green synthesis of Ag-TiO2 was carried out utilizing a dry and wet ball milling sol-gel method with turmeric extract. The effect of varying Ag concentrations in Ag-TiO2 on MB degradation was investigated. According to our findings, the optimal amount of Ag on TiO2 modification resulted in an increase in surface area, an improvement in visible light absorption, and a decrease in the TiO2 bandgap. X-ray absorption spectroscopy results showed the presence of Ag+ in the TiO2 structure, indicating Ag substitution and oxygen vacancy formation in TiO2. Ag NPs could considerably increase the electron-hole separation and enhance the photocatalytic efficiency of the Ag-TiO2. The 3 %Ag-TiO2 provided the highest photocatalytic activity for 80 % MB degradation under visible light for 9 h. The method presented here leads to a straightforward and environmentally benign route to make visible-light-active Ag-TiO2 nanoparticles and can be used for treatment of wastewater.
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