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Disinfection of viruses with cold atmospheric‐pressure plasmas: Sources, mechanisms, and efficacy

Cuntao Lan, Haiwei Zhu, Shenghua Wang, Lanlan Nie, Dawei Liu, Qi Shi, Xinpei Lu

2023Plasma Processes and Polymers17 citationsDOIOpen Access PDF

Abstract

Abstract In recent years, the outbreaks of viral diseases have urgently demanded effective virus disinfection techniques. Among them, the use of cold atmospheric‐pressure plasma (CAP) is one of the most promising approaches. CAP generates electric fields, charged particles, reactive oxygen and nitrogen species, and ultraviolet. CAP can effectively inactivate various viruses in a short period, whether they are on surfaces, in water, or in aerosols, without significantly raising the substrate temperature. This review highlights that the simultaneous action of physical and chemical means is the key mechanism of CAP in virus inactivation. It systematically summarizes the characteristics of plasma devices suitable for different application scenarios and further points out the opportunities and challenges faced by plasma virus inactivation technology.

Topics & Concepts

Atmospheric-pressure plasmaPlasmaUltravioletVirusAtmospheric pressureEnvironmental scienceReactive nitrogen speciesMaterials scienceNanotechnologyReactive oxygen speciesChemistryVirologyOptoelectronicsBiologyMeteorologyPhysicsBiochemistryQuantum mechanicsPlasma Applications and DiagnosticsPlasma Diagnostics and ApplicationsDust and Plasma Wave Phenomena
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