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Configurational excitations in condensed matter, and the "Bond Lattice" model for the liquid-glass transition
C. A. Angell, K. J. Rao
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Contribution to journal
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Article
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peer-review
282
Scopus citations
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Dive into the research topics of 'Configurational excitations in condensed matter, and the "Bond Lattice" model for the liquid-glass transition'. Together they form a unique fingerprint.
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Chemical Compounds
Condensed Matter
100%
Lattice Model
93%
Heat Capacity
49%
Glass
44%
Liquid
35%
Transport Property
30%
Bond Energy
18%
Thermodynamic Property
14%
Strength
10%
Thermodynamics
10%
Medicine & Life Sciences
Vitrification
88%
Glass
62%
Hot Temperature
50%
Thermodynamics
39%
germanium oxide
31%
Liquid Crystals
24%
Temperature
23%
Plastics
15%
Direction compound
11%
Physics & Astronomy
glass
37%
liquids
34%
excitation
31%
specific heat
30%
transport properties
20%
molecular excitation
19%
approximation
13%
thermodynamic properties
10%
plastics
10%
thermodynamics
8%
temperature dependence
8%
crystals
6%
interactions
5%
temperature
3%
energy
3%