Journal
CHEMICAL ENGINEERING JOURNAL
Volume 429, Issue -, Pages -Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.cej.2021.132085
Keywords
Adenovirus; Respiratory syncytial virus; Adhesion; QCM-D; XDLVO; Surface energy
Categories
Funding
- U.S. Na-tional Science Foundation [OISE-1952438]
- Research Council of Norway [310074]
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This study quantified and interpreted the adhesion of different types of viruses to various materials based on their physicochemical properties. The research compared the different manifestations of virus-material interactions and proposed a method to guide the prevention of virus adhesion.
Adhesion of two viruses - one enveloped (human respiratory syncytial virus, HRSV) and one non-enveloped (human adenovirus 5, HAdV5) - to four fomites (silica, nylon, stainless steel, polypropylene) was quantified and interpreted based on physicochemical properties of viruses and fomites. The selected fomites are tentatively identified as archetypes representing groups of materials distinctly different in mechanisms of their interfacial interactions. The surfaces are typified on the basis of their surface energy components including the dispersive (Lifshitz-van der Waals) component and two polar (electron donor and electron acceptor) components. Virusfomite interactions are predicted using the extended Derjaguin-Landau-Verwey-Overbeek (XDLVO) theory and are experimentally assessed in tests with quartz crystal microbalance with dissipation (QCM-D). Polar interactions (manifested as hydrophobic attraction for all virus-fomite pairs but HAdV5/silica) governed virus attachment to fomites from a solution of high ionic strength typical for a respiratory fluid, while dispersive interactions played a relatively minor role. For both HAdV5 and HRSV, the areal mass density of deposited viruses correlated with the free energy of virus-fomite interfacial interaction in water, Delta Gvwf. The dependence of virus-fomite attachment probability on Delta Gvwf collapsed into one trend for both HAdV5 and HRSV pointing to the possibility of using Delta Gvwf as a predictor of virus adhesion. Fomite rinsing with DI water resulted in a partial virus removal attributable to longer range repulsive electrostatic interactions. The proposed methodology can guide screening and selection of materials that discourage virus adhesion. The information on the efficiency of virus attachment to materials as a function of their surface energy components can help design anti-adhesive surfaces, develop surface cleaning solutions and protocols, and inform transport and fate models for viruses in indoor environments.
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