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Stability of aqueous films between bubbles. Part 2. Effects of trace impurities and evaporation

journal contribution
posted on 2010-01-01, 00:00 authored by V Yaminsky, S Ohnishi, E Vogler, Roger Horn
The stability of water films has been investigated with a Mysels-Scheludko type film balance. Minor trace impurities in water do not affect the lifetime of water films under vapor saturation, but significantly influence the stability in free evaporation. Trace amounts of positively adsorbed contaminants induce Marangoni-driven flow that destabilizes films under evaporation conditions whereas negatively adsorbed electrolytes actually prolong stability by reversing interfacial tension gradients and driving a steady circulation within the film. At high thinning rates, pure-water films develop exotic-appearing flow patterns and break due to a strong coupling between hydrodynamic and interfacial tensiongradient adsorption stresses. The most dominant factor of transient film stabilization in dynamic conditions under evaporation is a surface tension gradient created in the film. We discuss surface tension gradients in transient films created by temperature differences, impurity concentration, and expansion of the films.

History

Journal

Langmuir

Volume

26

Issue

11

Pagination

8075 - 8080

Publisher

American Chemical Society

Location

Washington, D. C.

ISSN

0743-7463

eISSN

1520-5827

Language

eng

Notes

First published online 10th February 2010

Publication classification

C1.1 Refereed article in a scholarly journal

Copyright notice

2010, American Chemical Society

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