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Volumn 113, Issue 17, 2009, Pages 4930-4940
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EPR line shifts and line shape changes due to spin exchange of nitroxide free radicals in liquids: 6. Separating line broadening due to spin exchange and dipolar interactions
a
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Author keywords
[No Author keywords available]
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Indexed keywords
BROADENING CONSTANTS;
CONTINUOUS FUNCTIONS;
DIPOLAR CONTRIBUTION;
DIPOLAR INTERACTION;
EPR SPECTRA;
HIGH TEMPERATURE;
HYPERFINE LINES;
LINE BROADENING;
LINE SHAPE;
LINE SHIFTS;
LINEAR PREDICTION;
LINEAR REGION;
LOGARITHMIC DEPENDENCE;
LOW TEMPERATURES;
MOLAR CONCENTRATION;
NITROXIDE FREE RADICALS;
ROTATIONAL CORRELATION TIME;
SPIN EXCHANGES;
STOKES EINSTEIN EQUATIONS;
TEMPERATURE DEPENDENCE;
TETRAMETHYL;
ELECTRON RESONANCE;
ELECTRON SPIN RESONANCE SPECTROSCOPY;
FLUID DYNAMICS;
FREE RADICAL REACTIONS;
FREE RADICALS;
GLYCEROL;
PARAFFINS;
PARAMAGNETIC RESONANCE;
QUANTUM THEORY;
SPONTANEOUS EMISSION;
VISCOSITY;
SPIN DYNAMICS;
FREE RADICAL;
GLYCEROL;
NITROGEN OXIDE;
TEMPONE;
WATER;
ARTICLE;
CHEMICAL MODEL;
CHEMISTRY;
COMPUTER SIMULATION;
ELECTRON SPIN RESONANCE;
METHODOLOGY;
QUANTUM THEORY;
STANDARD;
TEMPERATURE;
COMPUTER SIMULATION;
ELECTRON SPIN RESONANCE SPECTROSCOPY;
FREE RADICALS;
GLYCEROL;
MODELS, CHEMICAL;
NITROGEN OXIDES;
QUANTUM THEORY;
REFERENCE STANDARDS;
TEMPERATURE;
TRIACETONEAMINE-N-OXYL;
WATER;
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EID: 65649095186
PISSN: 10895639
EISSN: None
Source Type: Journal
DOI: 10.1021/jp8093947 Document Type: Article |
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Times cited : (34)
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References (28)
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