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Carbon dots for effective photodynamic inactivation of virus

Xiuli Dong, Rasheena Edmondson, Fan Yang, Yongan Tang, Ping Wang, Ya‐Ping Sun, Liju Yang

2020RSC Advances22 citationsDOIOpen Access PDF

Abstract

cells, and the antiviral effects are dot concentration- and treatment time-dependent. The action of CDots apparently causes no significant damage to the structural integrity and morphology of the MS2 phage or the breakdown of the capsid proteins, but does result in the protein carbonylation (a commonly used indicator for protein oxidation) and the degradation of viral genomic RNA. Mechanistically the results may be understood in the framework of photodynamic effects that are associated with the unique excited state properties and processes of CDots. Opportunities for potentially broad applications of CDots coupled with visible/natural light in the prevention and control of viral transmission and spread are highlighted and discussed.

Topics & Concepts

CapsidInfectivityRNAVirusVirologyTiterBacteriophage MS2ChemistryBiophysicsBiologyMicrobiologyCell biologyBiochemistryGeneCoat proteinCarbon and Quantum Dots ApplicationsAdvanced biosensing and bioanalysis techniquesQuantum Dots Synthesis And Properties
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