Issue 35, 2024

Surface-anchored carbon nanomaterials for antimicrobial surfaces

Abstract

Carbon nanomaterials (CNMs) are known for their antimicrobial (antibacterial and antiviral) activity when dispersed in a liquid, but whether this can be transferred to the surface of common materials has rarely been investigated. We have compared two typical CNMs (double-walled carbon nanotubes and few-layer graphene) in their non-oxidised and oxidised forms in terms of their antibacterial (Pseudomonas aeruginosa and Staphylococcus aureus) and antiviral (SARS-CoV2) activities after anchoring them onto the surface of silicone. We propose a very simple and effective protocol using the air-brush spray deposition method to entrap CNMs on the surfaces of two different silicone materials and demonstrate that the nanomaterials are anchored within the polymer while still being in contact with bacteria. We also investigated their antiviral activity against SARS-COV2 after deposition on standard surgical respiratory masks. Our results show that while suspensions of double-walled carbon nanotubes had a moderate effect on P. aeruginosa, this was not transferred after anchoring them to the surface of silicone. In contrast, graphene oxide showed a very strong antibacterial effect on P. aeruginosa and oxidised double-walled carbon nanotubes on S. aureus only when anchored to the surface. No significant antiviral activity was observed. This work paves the way for new antibacterial surfaces based on CNMs.

Graphical abstract: Surface-anchored carbon nanomaterials for antimicrobial surfaces

Supplementary files

Article information

Article type
Paper
Submitted
07 јул. 2024
Accepted
29 јул. 2024
First published
31 јул. 2024
This article is Open Access
Creative Commons BY license

Nanoscale, 2024,16, 16517-16534

Surface-anchored carbon nanomaterials for antimicrobial surfaces

L. Giraud, O. Marsan, E. Dague, M. Ben-Neji, C. Cougoule, E. Meunier, S. Soueid, A. M. Galibert, A. Tourrette and E. Flahaut, Nanoscale, 2024, 16, 16517 DOI: 10.1039/D4NR02810D

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