The Photocatalytic Performance of Ag-Decorated SiO2 Nanoparticles (NPs) and Binding Ability between Ag NPs and Modifiers

This study demonstrates a method for synthesizing Ag-decorated SiO2 NPs, which combined surface modification and electroless plating. The binding ability between the Ag NPs and modifiers was also investigated for the first time. The resulting products were characterized by electron microscopy and a UV-Visible spectrophotometer, which confirmed that OH- modified composite has the most uniform coating of Ag NPs and the largest Ag elemental composition. The efficiency of degrading methylene blue (MB) under visible light for 60 min was above 99%. The normalized reaction constant also confirmed the experimental results. In brief, this study verifies an optimal surface modifier of the binding ability with Ag NPs and the feasibility of this structure to effectively absorb the solar spectrum and further apply it to the photodegradation reaction.

Automated summary

This study presents a method for synthesizing Ag-decorated SiO2 NPs and investigates the binding ability between Ag NPs and modifiers. The research demonstrates that OH- modified composite has the most uniform coating of Ag NPs and the largest Ag elemental composition. The study also shows that this structure can effectively degrade methylene blue under visible light.