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Distribution of glass transition temperatures in free-standing, nanoconfined polystyrene films: A test of de Gennes' sliding motion mechanism
Soyoung Kim,
John M. Torkelson
Chemical and Biological Engineering
Research output
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Contribution to journal
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Article
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peer-review
107
Scopus citations
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Dive into the research topics of 'Distribution of glass transition temperatures in free-standing, nanoconfined polystyrene films: A test of de Gennes' sliding motion mechanism'. Together they form a unique fingerprint.
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Keyphrases
Confinement Effect
66%
Film Thickness
66%
Film-forming
33%
Fluorescence Method
33%
Free Surface
66%
Free-standing Film
33%
Glass Transition Temperature
100%
Molecular Weight Dependence
66%
Motion Mechanism
100%
Multilayer Film
66%
Nanoconfined
100%
Nanoconfinement
33%
Nanometre
33%
Polystyrene Films
100%
Pyrene
33%
Pyrene Dye
33%
Self-reference
33%
Sliding Motion
100%
Surface Layer
66%
Thick Film
33%
Veress
33%
Engineering
Confinement Effect
100%
Free Surface
100%
Loop Form
50%
Middle Layer
50%
Molecular Mass
100%
Molecular Weight
100%
Multilayer Film
100%
Nanometre
50%
Nanoscale
50%
Sliding Motion
100%
Surface Layers
100%
Thin Films
50%
Material Science
Film
100%
Film Thickness
25%
Glass Transition Temperature
100%
Multilayer Film
25%
Polystyrene
100%
Surface (Surface Science)
75%
Thick Films
12%
Thin Films
12%