Experimental Measurement of Physical, Transport, and Optical Properties of Binary Mixtures of N-Hexyl Pyridinium Nitrate [HPy][NO3] Ionic Liquid with Water, Ethanol, and Acetonitrile at 298.15 K and 101 kPa

We have conducted the first investigation of the thermophysical and transport properties of N -hexyl pyridinium nitrate [HPy][NO 3 ], a room-temperature ionic liquid, in combination with water and the organic solvents, ethanol, and acetonitrile in the form of binary mixtures, at 298.15 K and 101 kPa...

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Bibliographic Details
Published inJournal of solution chemistry Vol. 50; no. 4; pp. 576 - 590
Main Authors Doust Mohammadi, M., Hamzehloo, M., Abdullah, Hewa Y.
Format Journal Article
LanguageEnglish
Published New York Springer US 01.04.2021
Springer Nature B.V
Subjects
Acetonitrile
Binary mixtures
Chemistry
Chemistry and Materials Science
Condensed Matter Physics
Ethanol
Geochemistry
Industrial Chemistry/Chemical Engineering
Inorganic Chemistry
Ionic liquids
Ions
Least squares method
Lorenz equations
Oceanography
Optical properties
Physical Chemistry
Refractivity
Room temperature
Solvents
Thermophysical properties
Transport properties
Viscosity
coefficient
Apparent molar volume
Density
Refractive index
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Summary:We have conducted the first investigation of the thermophysical and transport properties of N -hexyl pyridinium nitrate [HPy][NO 3 ], a room-temperature ionic liquid, in combination with water and the organic solvents, ethanol, and acetonitrile in the form of binary mixtures, at 298.15 K and 101 kPa. The densities, viscosities, and refractive indices of the binary mixtures were measured, and the experimental values were used to calculate the derived properties. To examine the volumetric properties of the binary mixtures, the apparent molar volumes were calculated from experimental densities and correlated using both the Redlich–Mayer and Pitzer models. It was found that the dielectric constant and polarity of the solvents had significant effects on the ion–solvent interactions. The viscosities and refractive indices of the mixtures are reported; the B -coefficient of the Jones–Dole equation, and the molar refractive indices determined using the Lorentz–Lorenz equation were calculated. Values of the standard deviations between the calculated and experimental data were determined using the linear least-squares method. Finally, the results were used to shed light on the structure making/breaking effect of ions in the binary mixtures.
ISSN:0095-9782
1572-8927
DOI:10.1007/s10953-021-01078-3