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Plasmonic effect augmented S-scheme mechanism in Ag/Ag2O/C3N5 photocatalyst enables efficient photocatalytic degradation of antibiotics

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January 1, 2026
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Fe-W co-doped V2O5 nanostructures with enhanced oxygen vacancy generation for photocatalytic dye degradation

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What is the core focus of the research titled 'Plasmonic effect augmented S-scheme mechanism in Ag/Ag2O/C3N5 photocatalyst enables efficient photocatalytic degradation of antibiotics'?

This literature focuses on:

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What other academic literature is closely related to 'Plasmonic effect augmented S-scheme mechanism in Ag/Ag2O/C3N5 photocatalyst enables efficient photocatalytic degradation of antibiotics'?

Yes, highly correlated activity was mapped. An entry titled 'Recent progress on S-scheme heterojunction strategy enabling polymer carbon nitrides C3N4 and C3N5 enhanced photocatalysis in energy conversion and environmental remediation' discusses this: No description provided.

Are there commercial applications of 'Plasmonic effect augmented S-scheme mechanism in Ag/Ag2O/C3N5 photocatalyst enables efficient photocatalytic degradation of antibiotics' in market news publications?

Yes, highly correlated activity was mapped. An entry titled 'Fe-W co-doped V2O5 nanostructures with enhanced oxygen vacancy generation for photocatalytic dye degradation' discusses this: Nanoparticles of V2O5 with dilute doped Fe-, W-, and Fe-W co-doped were prepared by using wet chemical sol–gel method. Structural analysis confirme...

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