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
The neuraminidase activity of influenza A virus determines the strain-specific sensitivity to neutralization by respiratory mucus
Using soft aerosolization and sampling techniques for the conservation of virus infectivity during airborne exposure experiments
See complete list of publications (12)
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
The neuraminidase activity of influenza A virus determines the strain-specific sensitivity to neutralization by respiratory mucus
Using soft aerosolization and sampling techniques for the conservation of virus infectivity during airborne exposure experiments
See complete list of publications (12)
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