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Free volume-entropy interpretation of the electrical conductance of aqueous electrolyte solutions in the concentration range 2-20 N
C. A. Angell
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Contribution to journal
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Article
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peer-review
67
Scopus citations
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Dive into the research topics of 'Free volume-entropy interpretation of the electrical conductance of aqueous electrolyte solutions in the concentration range 2-20 N'. Together they form a unique fingerprint.
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Chemical Compounds
Conductance
66%
Packing (Particle)
53%
Electrical Conductivity
53%
Electrostatic Charge
47%
Cohesive Energy
44%
Solution Behavior
42%
Fluidity
39%
Glass Transition
37%
Evaporation
30%
Cooling
30%
Glass Transition Temperature
29%
Cation
20%
Aqueous Solution
17%
Solvent
16%
Engineering & Materials Science
Free volume
100%
Electrolytes
67%
Entropy
58%
Glass transition
39%
Temperature
23%
Chemical analysis
14%
Fluidity
14%
Positive ions
14%
Superconducting transition temperature
12%
Electrostatics
12%
Evaporation
11%
Cooling
7%
Liquids
7%
Physics & Astronomy
electrolytes
57%
entropy
50%
electrostatic charge
11%
packing density
10%
temperature
10%
glass
10%
glass transition temperature
8%
aqueous solutions
7%
cations
7%
derivation
7%
evaporation
6%
cooling
5%
liquids
4%
approximation
4%
energy
2%