Lattice model of mobility at interfaces: free surfaces, substrates, and bilayers

A simple kinetic lattice model of free volume and mobility transport in fluids is applied to study the enhancement of mobility at a free surface in thin fluid films, as well as proximity effects in fluid bilayers consisting of materials with different local mobility. Consistent with experimental obs...

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Published inSoft matter Vol. 9; no. 39; pp. 943 - 9413
Main Authors Tito, Nicholas B, Lipson, Jane E. G, Milner, Scott T
Format Journal Article
LanguageEnglish
Published 01.01.2013
Subjects
Computational fluid dynamics
Film thickness
Fluid films
Fluid flow
Fluids
Lattices
Mathematical models
Solvents
Online AccessGet full text
ISSN1744-683X
1744-6848
DOI10.1039/c3sm51287h

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Abstract A simple kinetic lattice model of free volume and mobility transport in fluids is applied to study the enhancement of mobility at a free surface in thin fluid films, as well as proximity effects in fluid bilayers consisting of materials with different local mobility. Consistent with experimental observations on fluid and polymeric thin films, our model predicts the presence of a mobile layer of material near the free surface of a kinetically arrested (glassy) film. The mobile layer extends deeper into the film, in front-like fashion, as the sample approaches the transition to complete fluidity. The extent of enhanced mobility is independent of film thickness at a given temperature, thus we find that thinner films have more suppressed sample-average glass transition temperatures compared to bulk material. This theme repeats itself in our simulations of fluid bilayers; slabs of material with suppressed or enhanced mobility respectively cause premature or delayed glassification of the whole system. A simple lattice model of free volume and kinetic arrest in supercooled liquids is used to examine mobility near the free surface and substrate of a supported film, and near the interfaces of fluid bilayers.
AbstractList A simple kinetic lattice model of free volume and mobility transport in fluids is applied to study the enhancement of mobility at a free surface in thin fluid films, as well as proximity effects in fluid bilayers consisting of materials with different local mobility. Consistent with experimental observations on fluid and polymeric thin films, our model predicts the presence of a mobile layer of material near the free surface of a kinetically arrested (glassy) film. The mobile layer extends deeper into the film, in front-like fashion, as the sample approaches the transition to complete fluidity. The extent of enhanced mobility is independent of film thickness at a given temperature, thus we find that thinner films have more suppressed sample-average glass transition temperatures compared to bulk material. This theme repeats itself in our simulations of fluid bilayers; slabs of material with suppressed or enhanced mobility respectively cause premature or delayed glassification of the whole system.
A simple kinetic lattice model of free volume and mobility transport in fluids is applied to study the enhancement of mobility at a free surface in thin fluid films, as well as proximity effects in fluid bilayers consisting of materials with different local mobility. Consistent with experimental observations on fluid and polymeric thin films, our model predicts the presence of a mobile layer of material near the free surface of a kinetically arrested (glassy) film. The mobile layer extends deeper into the film, in front-like fashion, as the sample approaches the transition to complete fluidity. The extent of enhanced mobility is independent of film thickness at a given temperature, thus we find that thinner films have more suppressed sample-average glass transition temperatures compared to bulk material. This theme repeats itself in our simulations of fluid bilayers; slabs of material with suppressed or enhanced mobility respectively cause premature or delayed glassification of the whole system. A simple lattice model of free volume and kinetic arrest in supercooled liquids is used to examine mobility near the free surface and substrate of a supported film, and near the interfaces of fluid bilayers.
Author Lipson, Jane E. G
Tito, Nicholas B
Milner, Scott T
AuthorAffiliation Department of Chemistry
Department of Chemical Engineering
The Pennsylvania State University
Dartmouth College
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Snippet A simple kinetic lattice model of free volume and mobility transport in fluids is applied to study the enhancement of mobility at a free surface in thin fluid...
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SubjectTerms Computational fluid dynamics
Film thickness
Fluid films
Fluid flow
Fluids
Lattices
Mathematical models
Solvents
Title Lattice model of mobility at interfaces: free surfaces, substrates, and bilayers
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