Reduction of infectivity of SARS-CoV-2 by zinc oxide coatings
ACS Biomaterials Science & Engineering, 2021•ACS Publications
We developed antimicrobial coatings from ZnO particles that reduce the infectivity of SARS-
CoV-2 suspensions by> 99.9% in 1 h. The advantage of a coating is that it can be applied to
a variety of objects, eg, hand rails and door knobs, to hinder the spread of disease. Two
porous coatings were prepared: one from submicrometer zinc oxide particles bound with
silica menisci and the other from zinc oxide tetrapods bound with polyurethane. Experiments
on glass coatings show that infectivity depends on porosity for hydrophilic materials, wherein …
CoV-2 suspensions by> 99.9% in 1 h. The advantage of a coating is that it can be applied to
a variety of objects, eg, hand rails and door knobs, to hinder the spread of disease. Two
porous coatings were prepared: one from submicrometer zinc oxide particles bound with
silica menisci and the other from zinc oxide tetrapods bound with polyurethane. Experiments
on glass coatings show that infectivity depends on porosity for hydrophilic materials, wherein …
We developed antimicrobial coatings from ZnO particles that reduce the infectivity of SARS-CoV-2 suspensions by >99.9% in 1 h. The advantage of a coating is that it can be applied to a variety of objects, e.g., hand rails and door knobs, to hinder the spread of disease. Two porous coatings were prepared: one from submicrometer zinc oxide particles bound with silica menisci and the other from zinc oxide tetrapods bound with polyurethane. Experiments on glass coatings show that infectivity depends on porosity for hydrophilic materials, wherein aqueous droplets are imbibed into the pores.
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