AI Article Synopsis
- Thin liquid films are essential in various areas of life, from technology and consumer products to biological functions like eye tears and lung surfactants.
- The presence of surface-active molecules at the air-liquid interface creates complex surface stresses that affect the thin film's stability and dynamics.
- Experiments reveal that surfactants can slow down the drainage of these films by influencing bulk flow through interfacial stresses and by creating stability against surface-tension-induced Marangoni flows.
Article Abstract
Thin liquid films are central to everyday life. They are ubiquitous in modern technology (pharmaceuticals, coatings), consumer products (foams, emulsions) and also serve vital biological functions (tear film of the eye, pulmonary surfactants in the lung). A common feature in all these examples is the presence of surface-active molecules at the air-liquid interface. Though they form only molecular-thin layers, these surfactants produce complex surface stresses on the free surface, which have important consequences for the dynamics and stability of the underlying thin liquid film. Here we conduct simple thinning experiments to explore the fundamental mechanisms that allow the surfactant molecules to slow the gravity-driven drainage of the underlying film. We present a simple model that works for both soluble and insoluble surfactant systems in the limit of negligible adsorption-desorption dynamics. We show that surfactants with finite surface rheology influence bulk flow through viscoelastic interfacial stresses, while surfactants with inviscid surfaces achieve stability through opposing surface-tension induced Marangoni flows.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5436193 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0175753 | PLOS |
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