Phys. Rev. Lett. 121, 204502 (2018) - Biosurfactants Change the Thinning of Contaminated Bubbles at Bacteria-Laden Water Interfaces https://t.co/mUCfd39RCp
Check out how students in Prof. Lydia Bourouiba's lab discovered that microorganisms can manipulate the aging physics of surface bubbles to enhance water-to-air dispersal. https://t.co/pSmCsI20xm @APSphysics #FluidsAndHealth2019 #Fluids #Health #biophy
Biosurfactants Change the Thinning of Contaminated Bubbles at #Bacteria Laden #Water Interfaces https://t.co/UeMPWBAgDq
Biosurfactants Change the Thinning of Contaminated Bubbles at Bacteria-Laden Water Interfaces https://t.co/nO52v0cChh #physics https://t.co/HuOWtIri3y
RT @RobertGaristo: Bacteria cause bubbles to thin, aiding their own dispersal https://t.co/awp3VPxD87
RT @PhysRevLett: In solution, bacteria release surfactants that cause bubbles to have thinner skins. When these pop, they make smaller dro…
RT @RobertGaristo: Bacteria cause bubbles to thin, aiding their own dispersal https://t.co/awp3VPxD87
Bacteria cause bubbles to thin, aiding their own dispersal
RT @PhysRevLett: In solution, bacteria release surfactants that cause bubbles to have thinner skins. When these pop, they make smaller dro…
RT @PhysRevLett: In solution, bacteria release surfactants that cause bubbles to have thinner skins. When these pop, they make smaller dro…
In solution, bacteria release surfactants that cause bubbles to have thinner skins. When these pop, they make smaller droplets, which are more likely to travel in air, and spread the bacteria. https://t.co/XcQ1L1esj6 #biophysics #infections https://t.co/m