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Debye type dielectric relaxation and the glass transition of alcohols
Li Min Wang,
Ranko Richert
Molecular Sciences, School of (SMS)
Research output
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Contribution to journal
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Article
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peer-review
69
Scopus citations
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Dive into the research topics of 'Debye type dielectric relaxation and the glass transition of alcohols'. Together they form a unique fingerprint.
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Engineering & Materials Science
Dielectric relaxation
100%
Glass transition
65%
Alcohols
62%
Liquids
28%
Structural relaxation
25%
Glass
22%
Hydrogen bonds
19%
Molecular structure
18%
Amines
17%
Viscous flow
16%
Superconducting transition temperature
15%
Polarization
13%
Hydrogen
11%
Chemical analysis
9%
Chemical Compounds
Dielectric Relaxation
71%
Glass Transition
61%
Dielectric Material
50%
Alcohol
34%
Dielectric Polarization
31%
Liquid
31%
Structural Relaxation
25%
Glass Transition Temperature
16%
Molecular Structure
13%
Amine
12%
Mixture
8%
Time
6%
Physics & Astronomy
alcohols
60%
glass
33%
liquids
22%
dielectric polarization
20%
hydrogen
17%
amines
16%
viscous flow
16%
molecular structure
15%
glass transition temperature
13%
kinetics
8%