Passive antifouling and active self-disinfecting antiviral surfaces

[Display omitted] •Five types of the antiviral mechanisms can be identified for antiviral surfaces.•All antiviral surface can be divided into two types - passive and active ones.•Active antiviral surfaces contain agents engaged in antiviral activity.•Passive surfaces are effective through the applic...

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Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2022-10, Vol.446, p.137048-137048, Article 137048
Main Authors: Lishchynskyi, Ostap, Shymborska, Yana, Stetsyshyn, Yurij, Raczkowska, Joanna, Skirtach, Andre G., Peretiatko, Taras, Budkowski, Andrzej
Format: Article
Language:English
Subjects:
Antiviral agents
Coatings
Nanoparticles
Review
Surfaces
Viruses
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Summary:[Display omitted] •Five types of the antiviral mechanisms can be identified for antiviral surfaces.•All antiviral surface can be divided into two types - passive and active ones.•Active antiviral surfaces contain agents engaged in antiviral activity.•Passive surfaces are effective through the application of superhydrophobic coatings. Viruses pose a serious threat to human health and society in general, as virus infections are one of the main causes of morbidity and mortality. Till May 2022, over 513 million people around the world have been confirmed to be infected and more than 6.2 million have died due to SARS-CoV-2. Although the COVID-19 pandemic will be defeated in the near future, we are likely to face new viral threats in the coming years. One of the important instruments to protect from viruses are antiviral surfaces, which are essentially capable of limiting their spread. The formulation of the concept of antiviral surfaces is relatively new. In general, five types of mechanism directed against virus spread can be proposed for antiviral surfaces; involving: direct and indirect actions, receptor inactivation, photothermal effect, and antifouling behavior. All antiviral surfaces can be classified into two main types - passive and active. Passive antiviral surfaces are based on superhydrophobic coatings that are able to repel virus contaminated droplets. In turn, viruses can become biologically inert (e.g., blocked or destroyed) upon contact with active antiviral surfaces, as they contain antiviral agents: metal atoms, synthetic or natural polymers, and small molecules. The functionality of antiviral surfaces can be significantly improved with additional properties, such as temperature- or pH-responsivity, multifunctionality, non-specific action on different virus types, long-term application, high antiviral efficiency and self-cleaning.
ISSN:1385-8947
1873-3212
1385-8947
DOI:10.1016/j.cej.2022.137048