Details
Title
Schaub, Aline Laetitia
Sciper ID
228380
Affiliated labs
LCE
Publications
Acidity of expiratory aerosols controls the infectivity of airborne influenza virus and SARS-COV-2
Acidity of expiratory aerosols controls the infectivity of airborne influenza virus and SARS-COV-2
Acidity of expiratory aerosols controls the infectivity of airborne influenza virus and SARS-CoV-2
Effect of Matrix Composition and Thermodynamic Properties on Virus Persistence in Respiratory Droplets
Expiratory Aerosol pH is a Driver of the Persistence of Airborne Influenza A Virus
Inactivation mechanisms of influenza A virus within the micro-environment of expiratory bioaerosols
Inactivation mechanisms of influenza A virus within the micro-environment of expiratory bioaerosols identified by whole virus mass-spectrometry
Salt-mediated inactivation of influenza A virus in 1- μl droplets exhibits exponential dependence on NaCl molality
Stability of influenza A virus in droplets and aerosols is heightened by the presence of commensal respiratory bacteria
The neuraminidase activity of influenza A virus determines the strain-specific sensitivity to neutralization by respiratory mucus
See complete list of publications (14)
Acidity of expiratory aerosols controls the infectivity of airborne influenza virus and SARS-COV-2
Acidity of expiratory aerosols controls the infectivity of airborne influenza virus and SARS-CoV-2
Effect of Matrix Composition and Thermodynamic Properties on Virus Persistence in Respiratory Droplets
Expiratory Aerosol pH is a Driver of the Persistence of Airborne Influenza A Virus
Inactivation mechanisms of influenza A virus within the micro-environment of expiratory bioaerosols
Inactivation mechanisms of influenza A virus within the micro-environment of expiratory bioaerosols identified by whole virus mass-spectrometry
Salt-mediated inactivation of influenza A virus in 1- μl droplets exhibits exponential dependence on NaCl molality
Stability of influenza A virus in droplets and aerosols is heightened by the presence of commensal respiratory bacteria
The neuraminidase activity of influenza A virus determines the strain-specific sensitivity to neutralization by respiratory mucus
See complete list of publications (14)
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