Author: Peddinti, Bharadwaja S. T.; Downs, Sierra N.; Yan, Jiaqi; Smith, Steven D.; Ghiladi, Reza A.; Mhetar, Vijay; Tocchetto, Roger; Griffiths, Anthony; Scholle, Frank; Spontak, Richard J.
Title: Rapid and Repetitive Inactivation of SARSâ€CoVâ€2 and Human Coronavirus on Selfâ€Disinfecting Anionic Polymers Cord-id: m41ies21 Document date: 2021_3_8
ID: m41ies21
Snippet: While the ongoing COVIDâ€19 pandemic affirms an urgent global need for effective vaccines as second and third infection waves are spreading worldwide and generating new mutant virus strains, it has also revealed the importance of mitigating the transmission of SARSâ€CoVâ€2 through the introduction of restrictive social practices. Here, it is demonstrated that an architecturally†and chemicallyâ€diverse family of nanostructured anionic polymers yield a rapid and continuous disinfecting alte
Document: While the ongoing COVIDâ€19 pandemic affirms an urgent global need for effective vaccines as second and third infection waves are spreading worldwide and generating new mutant virus strains, it has also revealed the importance of mitigating the transmission of SARSâ€CoVâ€2 through the introduction of restrictive social practices. Here, it is demonstrated that an architecturally†and chemicallyâ€diverse family of nanostructured anionic polymers yield a rapid and continuous disinfecting alternative to inactivate coronaviruses and prevent their transmission from contact with contaminated surfaces. Operating on a dramatic pHâ€drop mechanism along the polymer/pathogen interface, polymers of this archetype inactivate the SARSâ€CoVâ€2 virus, as well as a human coronavirus surrogate (HCoVâ€229E), to the minimum detection limit within minutes. Application of these anionic polymers to frequently touched surfaces in medical, educational, and publicâ€transportation facilities, or personal protection equipment, can provide rapid and repetitive protection without detrimental health or environmental complications.
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