Superhydrophobic Surfaces to Combat Bacterial Surface Colonization

Deepu Ashok; Samuel Cheeseman; Yi Wang; Bronte Funnell; Siu‐Fung Leung; Antonio Tricoli; David Nisbet

doi:10.1002/admi.202300324

Advanced Materials Interfaces (Aug 2023)

Superhydrophobic Surfaces to Combat Bacterial Surface Colonization

Deepu Ashok,
Samuel Cheeseman,
Yi Wang,
Bronte Funnell,
Siu‐Fung Leung,
Antonio Tricoli,
David Nisbet

Affiliations

Deepu Ashok: Laboratory of Advanced Biomaterials Research School of Chemistry and the John Curtin School of Medical Research The Australian National University Canberra 2601 Australia
Samuel Cheeseman: The Graeme Clark Institute Faculty of Engineering and Information Technology and Faculty of Medicine Dentistry and Health Services The University of Melbourne Melbourne 3010 Australia
Yi Wang: The Graeme Clark Institute Faculty of Engineering and Information Technology and Faculty of Medicine Dentistry and Health Services The University of Melbourne Melbourne 3010 Australia
Bronte Funnell: Laboratory of Advanced Biomaterials Research School of Chemistry and the John Curtin School of Medical Research The Australian National University Canberra 2601 Australia
Siu‐Fung Leung: Nanotechnology Research Laboratory Research School of Chemistry The Australian National University Canberra 2601 Australia
Antonio Tricoli: Nanotechnology Research Laboratory Research School of Chemistry The Australian National University Canberra 2601 Australia
David Nisbet: Laboratory of Advanced Biomaterials Research School of Chemistry and the John Curtin School of Medical Research The Australian National University Canberra 2601 Australia

DOI: https://doi.org/10.1002/admi.202300324
Journal volume & issue: Vol. 10, no. 24
pp. n/a – n/a

Abstract

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Abstract The recent COVID‐19 pandemic and the accelerating rise of deaths associated with antibiotic‐resistant bacterial strains have highlighted the global health and economic threats caused by the super spreading of pathogens. A major route of transmission for pathogens is via surfaces contaminated by touch or droplets generated via sneezing and coughing. Current surface disinfection strategies are having diminishing efficacy, due to the increasing number of superbugs and the short‐lasting effect of disinfectants resulting in recontamination. New strategies for inhibiting surface‐mediated pathogen transmission are the focus of significant multi‐disciplinary efforts. Among those, the development of superhydrophobic surfaces (SHS) is increasingly regarded as a powerful alternative, or additive, to antimicrobial strategies. SHS provide a neutral/inert interface that can prevent viral and bacterial surface colonization. Here, the use of such water‐repellent coatings are critically reviewed to impede the surface‐mediated transmission of pathogens, addressing the challenges and future directions for their translation into real‐world settings.

Published in Advanced Materials Interfaces

ISSN: 2196-7350 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Science: Physics; Technology
Website: https://onlinelibrary.wiley.com/journal/21967350

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