期刊
ADVANCES IN COLLOID AND INTERFACE SCIENCE
卷 320, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.cis.2023.103006
关键词
Virus attachment; Surface interaction; Disinfection; Repellant
This article summarizes the current understanding of the interaction between viruses and surfaces from a chemistry perspective. It covers the attachment of viruses to surfaces, the effects of biological, physical, and chemical parameters on virus survival and transfer, and the disinfection strategies for viruses. It also introduces the design principles for virus-repelling surface chemistry.
While SARS-CoV-2 is generally under control, the question of variants and infections still persists. Fundamental information on how the virus interacts with inanimate surfaces commonly found in our daily life and when in contact with the skin will be helpful in developing strategies to inhibit the spread of the virus. Here in, a critically important review of current understanding of the interaction between virus and surface is summarized from chemistry point-of-view. The Derjaguin-Landau-Verwey-Overbeek and extended Derjaguin-Landau-VerweyOverbeek theories to model virus attachments on surfaces are introduced, along with the interaction type and strength, and quantification of each component. The virus survival and transfer are affected by a combination of biological, physical, and chemical parameters, as well as environmental parameters. The surface properties for virus and virus survival on typical surfaces such as metals, plastics, and glass are summarized. Attention is also paid to the transfer of virus to/from surfaces and skin. Typical virus disinfection strategies utilizing heat, light, chemicals, and ozone are discussed together with their disinfection mechanism. In the last section, design principles for virus repelling surface chemistry such as surperhydrophobic or surperhydrophilic surfaces are also introduced, to demonstrate how the integration of surface property control and advanced material fabrication can lead to the development of functional surfaces for mitigating the effect of viral infection upon contact.
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