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Excess thermodynamic properties of glassforming liquids: The rational scaling of heat capacities, and the thermodynamic fragility dilemma resolved
Iolanda S. Klein, Charles Angell
Molecular Sciences, School of (SMS)
Renewable Energy Electrochemistry, Center for (CREE)
Bioenergy and Photosynthesis, Center for (C&BP)
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Contribution to journal
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Article
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peer-review
9
Scopus citations
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Dive into the research topics of 'Excess thermodynamic properties of glassforming liquids: The rational scaling of heat capacities, and the thermodynamic fragility dilemma resolved'. Together they form a unique fingerprint.
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Engineering & Materials Science
Specific heat
100%
Thermodynamic properties
88%
Thermodynamics
81%
Compressibility
64%
Liquids
63%
Entropy
47%
Compressibility of liquids
36%
Distribution functions
19%
Fourier transforms
18%
Derivatives
15%
Temperature
15%
Glass
15%
Water
10%
Physics & Astronomy
thermodynamic properties
76%
specific heat
73%
scaling
66%
thermodynamics
64%
compressibility
61%
liquids
50%
entropy
34%
encounters
16%
radial distribution
16%
beads
15%
distribution functions
12%
temperature
9%
glass
9%
water
8%
Chemical Compounds
Heat Capacity
96%
Thermodynamic Property
84%
Compressibility
73%
Thermodynamics
58%
Liquid
51%
Entropy
38%
Structure Factor
19%
Radial Distribution Function
19%
Wave
14%
Glass
10%