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Volumn 114, Issue 47, 2010, Pages 15582-15589
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The mechanism of the hydrogen ion conduction in liquid light and heavy water derived from the temperature dependence of their limiting conductivities
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NONE
(Netherlands)
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Author keywords
[No Author keywords available]
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Indexed keywords
CARRIER MOBILITY;
DATA REDUCTION;
HYDROGEN;
IONS;
ISOTOPES;
LIQUIDS;
MOLECULES;
QUANTUM THEORY;
ROTATION;
SUPERCOOLING;
TEMPERATURE DISTRIBUTION;
AB INITIO;
ABSOLUTE TEMPERATURES;
ANOMALOUS BEHAVIOR;
CONDUCTIVITY DATA;
CONDUCTIVITY MECHANISMS;
DATA ANALYSIS;
EXCESS CONDUCTIVITY;
EXPERIMENTAL DATA;
HOPPING MECHANISM;
HYDROGEN IONS;
HYDROXYL ION;
ISOTOPE EFFECT;
LIGHT AND HEAVY WATER;
LINEAR FUNCTIONS;
LINEAR RELATIONSHIPS;
LIQUID WATER;
MODEL-BASED;
MOMENT OF INERTIA;
ORDER OF MAGNITUDE;
PARALLEL PATHWAYS;
QUANTITATIVE ANALYSIS;
QUANTUM MECHANICAL;
RELATIVE ORIENTATION;
ROTATION BARRIERS;
ROTATION CONTROL;
ROTATION FREQUENCIES;
SINGLE MOLECULE;
SQUARE ROOTS;
SUPERCOOLED LIQUIDS;
TEMPERATURE DEPENDENCE;
TEMPERATURE DEPENDENT;
TEMPERATURE INDEPENDENTS;
TRANSITION TEMPERATURE;
WATER MOLECULE;
ZERO-POINT ENERGIES;
HEAVY WATER;
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EID: 78649519018
PISSN: 15206106
EISSN: 15205207
Source Type: Journal
DOI: 10.1021/jp104455r Document Type: Article |
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Times cited : (25)
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References (34)
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