Engineering
Water
100%
Physicochemical Characterization
100%
Mixture
100%
Density
75%
Models
50%
Fourier Transform
50%
Nuclear Magnetic Resonance
50%
Liquid Composition
50%
Fluid Viscosity
50%
Lower Surface
25%
Dilution
25%
Molar Volume
25%
Negative Value
25%
Low Conductivity
25%
High Water
25%
Event
25%
Tension Surface
25%
Mole Fraction
25%
Percentage Deviation
25%
Physicochemical Property
25%
Prediction
25%
Expansion Coefficient
25%
Temperature
25%
High Concentration
25%
INIS
mixtures
100%
water
100%
ionic liquids
100%
density
60%
concentration
60%
nuclear magnetic resonance
40%
range
40%
viscosity
40%
volume
40%
surface tension
40%
fourier transformation
40%
prediction
20%
anions
20%
acetates
20%
values
20%
carbon 13
20%
dilution
20%
thermal expansion
20%
glass
20%
temperature dependence
20%
polynomials
20%
calorimetry
20%
data
20%
hydrogen 1
20%
Chemistry
Ionic Liquid
100%
Mixture
100%
Water Type
100%
Density
60%
Concentration
60%
Interfacial Tension
40%
NMR Spectroscopy
40%
Phase Composition
40%
Fourier Transform
40%
Viscosity
40%
Volume
20%
Acetate
20%
Analytical Method
20%
Anion
20%
Hexanoate
20%
Thermal Expansion Coefficient
20%
Glass Transition
20%
Differential Scanning Calorimetry
20%
Reaction Temperature
20%
Molar Volume
20%
Dilution
20%
Procedure
20%
Material Science
Mixture
100%
Water
100%
Ionic Liquid
100%
Characterization
100%
Density
60%
Viscosity
40%
Nuclear Magnetic Resonance
40%
Surface Tension
40%
Conductivity
40%
Differential Scanning Calorimetry
20%
Temperature
20%
Dilution
20%
Density (Specific Gravity)
20%
Glass Transition
20%
Thermal Expansion
20%
Keyphrases
Protic
100%
Molecular Arrangement
100%
2-Hydroxyethylammonium Acetate
33%
Volume Expansion Ratio
33%
Aqueous Dilution
33%
Ionic Liquid Concentration
33%
Prediction Function
33%
Nuclear Magnetic Resonance Analysis
33%
Chemical Engineering
Carboxylic Acid
100%
Water
100%
Differential Scanning Calorimetry
20%
Temperature
20%