Download This PaperNanostructured Zno Coatings as Antiviral Surfaces: Influence of Synthesis Methodology on Photocatalytic Efficiency
14 Pages Posted: 26 Mar 2025
Abstract
The development of antiviral coatings is crucial for mitigating pathogen transmission. This study evaluates the influence of fabrication methods on the structural, optical, and antiviral properties of nanostructured (NSs) ZnO thin-film coatings for MS2 bacteriophage inactivation under ambient white light (~1000 lux). The quality and morphology of ZnO NSs prepared via solution-based methods (sol-gel and hydrothermal) and aerosol-assisted chemical vapour deposition (AACVD) were compared. Structural and optical analyses revealed that AACVD produced highly crystalline, homogeneous ZnO film coatings with well-oriented [001] growth, while solution-based methods resulted in partial amorphous characteristics and bandgap blue-shifting due to carbon contamination. Antiviral tests showed that AACVD ZnO film coatings achieved a 4-log (99.99%) reduction in MS2 infectivity within 2 h, outperforming the 2-log reduction achieved by solution-based coatings. These results underscore AACVD as a scalable and efficient method for fabricating high-performance ZnO-based antiviral coatings.
Keywords: Materials design, AACVD synthesis, Thin-film fabrication, ZnO nanostructures, Antiviral coatings, Photocatalytic Efficiency
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