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Communication: Slow relaxation, spatial mobility gradients, and vitrification in confined films
Stephen Mirigian
,
Kenneth S. Schweizer
Materials Science and Engineering
Materials Research Lab
Chemistry
Chemical and Biomolecular Engineering
Research output
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Article
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peer-review
Overview
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Keyphrases
Slow Relaxation
100%
Confined Film
100%
Vitrification
100%
Spatial Mobility
100%
Layer Thickness
50%
Interfacial Effect
50%
Glass Forming
50%
Spatial Inhomogeneity
50%
Slow Dynamics
50%
Molecular Liquids
50%
Free-standing Film
50%
Geometric Confinement
50%
Elastic Distortion
50%
Polymeric Liquid
50%
Thermodynamic Measurements
50%
Dynamic Length Scale
50%
Temperature Dynamics
50%
Supercooled Liquid
50%
Major Change
50%
Force Level
50%
Level Theory
50%
Scale Layer
50%
Spatial Confinement
50%
Mobile Layer
50%
Vitrification Temperature
50%
Major Complications
50%
Generic Complexity
50%
Engineering
Length Scale
100%
Layer Thickness
100%
Force Level
100%
Major Change
100%
Material Science
Film
100%
Vitrification
100%
Surface (Surface Science)
50%
Earth and Planetary Sciences
Spatial Mobility
100%
Near-Surface Geology
50%
Chemical Engineering
Film
100%