Generation and characterization of surface layers on acoustically levitated drops

Tuckermann, R; Bauerecker, S; Cammenga, HK

HERO ID

4929372

Reference Type

Journal Article

Year

2007

Language

English

PMID

17376468

HERO ID 4929372
In Press No
Year 2007
Title Generation and characterization of surface layers on acoustically levitated drops
Authors Tuckermann, R; Bauerecker, S; Cammenga, HK
Journal Journal of Colloid and Interface Science
Volume 310
Issue 2
Page Numbers 559-569
Abstract Surface layers of natural and technical amphiphiles, e.g., octadecanol, stearic acid and related compounds as well as perfluorinated fatty alcohols (PFA), have been investigated on the surface of acoustically levitated drops. In contrast to Langmuir troughs, traditionally used in the research of surface layers at the air-water interface, acoustic levitation offers the advantages of a minimized and contact-less technique. Although the film pressure cannot be directly adjusted on acoustically levitated drops, it runs through a wide pressure range due to the shrinking surface of an evaporating drop. During this process, different states of the generated surface layer have been identified, in particular the phase transition from the gaseous or liquid-expanded to the liquid-condensed state of surface layers of octadecanol and other related amphiphiles. Characteristic parameters, such as the relative permeation resistance and the area per molecule in a condensed surface layer, have been quantified and were found comparable to results obtained from surface layers generated on Langmuir troughs.
Doi 10.1016/j.jcis.2007.02.031
Pmid 17376468
Wosid WOS:000246459700027
Url http://www.sciencedirect.com/science/article/pii/S002197970700183X
Is Certified Translation No
Dupe Override No
Is Public Yes
Language Text English
Keyword Acoustic levitation; Surface layer; Natural and technical amphiphiles; Permeation resistance