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1. Pressure effect on vibrational frequency and dephasing of 1-alkyl-3-methylimidazolium hexafluorophosphate ionic liquids.

Author

Pison, L., Costa Gomes, M. F., Pádua, A. A. H., Andrault, D., Norman, S., Hardacre, C., and Ribeiro, M. C. C.

Subjects
*VIBRATION (Mechanics), *RAMAN spectra, *IONIC liquids, *VAN der Waals forces, *STOCHASTIC models, *HIGH pressure (Science), *ELECTRON relaxation time, *EQUATIONS of state
Abstract

Raman spectra in the range of the totally symmetric stretching mode of the [PF6]- anion, νs(PF6), have been measured for 1-alkyl-3-methylimidazolium ionic liquids [CnC1im][PF6], for n = 4, 6, and 8, as a function of pressure at room temperature. The ionic liquids [C6C1im][PF6] and [C8C1im][PF6] remain in an amorphous phase up to 3.5 GPa, in contrast to [C4C1im][PF6], which crystallizes above ∼0.5 GPa. Equations of state based either on a group contribution model or Carnahan-Starling-van der Waals model have been used to estimate the densities of the ionic liquids at high pressures. The shifts of the vibrational frequency of νs(PF6) with density observed in [C6C1im][PF6] and in [C8C1im][PF6] have been calculated by a hard-sphere model of a pseudo-diatomic solute under short-range repulsive interactions with the neighboring particles. The stochastic model of Kubo for vibrational dephasing has been used to obtain the amplitude of vibrational frequency fluctuation, <Δω2>, and the relaxation time of frequency fluctuation, τc, as a function of density by Raman band shape analysis of the νs(PF6) mode of [C6C1im][PF6] and [C8C1im][PF6]. [ABSTRACT FROM AUTHOR]

Published
2013
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4. Influence of Fluorination on the Solubilities of Carbon Dioxide, Ethane, and Nitrogen in 1-n-Fluoro-alkyl-3-methylimidazolium Bis(n-fluoroalkylsulfonyl)amide Ionic Liquids

Author

Almantariotis, D., Pensado, A. S., Gunaratne, H. Q. N., Hardacre, C., Pádua, A. A. H., Coxam, J.-Y., and Costa Gomes, M. F.

Abstract

The effect on gas solubilities of adding partially fluorinated alkyl side chains either on imidazolium-based cations or on bis(perfluoroalkylsulfonyl)amide anions was studied. The aim was to gain knowledge of the mechanisms of dissolution of gases in fluorinated ionic liquids and, if possible, to improve physical absorption of carbon dioxide in ionic liquids. We have determined experimentally, in the temperature range of 298–343 K and at pressures close to atmospheric pressure, the solubility and thermodynamics of solvation of carbon dioxide, ethane, and nitrogen in the ionic liquids 1-octyl-3-methylimidazolium bis[trifluoromethylsulfonyl]amide ([C8mim][NTf2]), 1-octyl-3-methylimidazolium bis[pentafluoroethylsulfonyl]amide ([C8mim][BETI]), 1-(3,3,4,4,5,5,6,6,7,7,8,8,8-tridecafluorooctyl)-3-methylimidazolium bis[trifluoromethylsulfonyl]amide ([C8H4F13mim][NTf2]), and 1-(3,3,4,4,5,5,6,6,7,7,8,8,8-tridecafluorooctyl)-3-methylimidazolium bis[pentafluoroethylsulfonyl]amide ([C8H4F13mim][BETI]). Ionic liquids with partial fluorination on the cation were found to exhibit higher carbon dioxide and nitrogen mole fraction solubilities but lower ethane solubilities, compared to those of their hydrogenated counterparts. Molecular simulation provided insights about the mechanisms of solvation of the different gases in the ionic liquids.

Published
2024
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5. Effect of Fluorination and Size of the Alkyl Side-Chain on the Solubility of Carbon Dioxide in 1-Alkyl-3-methylimidazolium Bis(trifluoromethylsulfonyl)amide Ionic Liquids

Author

Almantariotis, D., Gefflaut, T., Pádua, A. A. H., Coxam, J.-Y., and Costa Gomes, M. F.

Abstract

It is proven in this work that it is possible to significantly increase the carbon dioxide uptake by an ionic liquid relying on physical interactions only. The solubility and thermodynamics of solvation of carbon dioxide in the ionic liquids 1-octyl-3-methylimidazolium bis[trifluoromethylsulfonyl]amide [C8mim][Ntf2], 1-decyl-3-methylimidazolium bis[trifluoromethylsulfonyl]amide [C10mim][Ntf2], and 1-(3,3,4,4,5,5,6,6,7,7,8,8,8-tridecafluorooctyl)-3-methylimidazolium bis[trifluoromethylsulfonyl]amide [C8H4F13mim][Ntf2] were determined experimentally between 298 and 343 K at pressures close to atmospheric. The solubility of carbon dioxide is significantly higher in the fluorine-substituted ionic liquid with Henry’s law constants at 303 K of 33.3 and 30.7 bar for [C8mim][Ntf2] and [C10mim][Ntf2], respectively, and of 28.0 bar for [C8H4F13mim][Ntf2]. Molecular simulation was used for interpreting the molecular mechanisms of solvation of carbon dioxide in the studied ionic liquids and coherent molecular mechanisms of solvation are proposed in light of the solute−solvent radial distribution functions. It is shown that the increase of the size of the hydrogenated or fluorinated alkyl chain in the imidazolium cation does not lead to a steady augmentation of the gaseous uptake by the liquid probably due to an increase of the nonpolar domains of the ionic liquid, carbon dioxide being solvated preferentially in the charged regions of the solvent.

Published
2024
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10. Orthobaric volumetric properties of liquid (propane + cyclopropane) betweenT= (158 and 201) K

Author

Costa Gomes, M. F., Calado, J. C. G., and Fareleira, J. M. N. A.

Abstract

A recently described differential densimeter was used to measure the densities of liquid mixtures of propane and cyclopropane at three different compositions, and several temperatures between T= 158 K and T= 201 K. The densimeter cell was calibrated with propane and ethane atT= 121.902 K. The differences in density between pure propane and pure cyclopropane were measured along the saturation line between T= 152 K and T= 176 K with an estimated precision of ±0.1 per cent. The liquid cyclopropane density was obtained, relative to the propane literature density data, in the same temperature range and with an estimated precision of ±0.02 per cent. The differences in liquid density between pure propane and three mixtures of propane and cyclopropane were measured betweenT= 158 K and T= 201 K. The compositions studied had the following approximate propane mole fractions: 0.3, 0.5, and 0.8, respectively. The excess molar volumes calculated from the experimental data decrease with temperature, and a maximum value of VmE= 0.18cm3· mol−1 is found for the mixture withx(C3H8) = 0.5 atT= 159 K. The estimated precision in the excess molar volumes is ± 0.02cm3· mol−1 . The results for the excess molar volume are compared with the predictions of the Deiters equation of state.

Published
1999
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13. Sodium diffusion in ionic liquid-based electrolytes for Na-ion batteries: the effect of polarizable force fields

Author

Jocasta Avila, Claudio Gerbaldi, Arianna Massaro, Agilio A. H. Padua, Kateryna Goloviznina, Michele Pavone, Ivan Rivalta, Margarida F. Costa Gomes, Laboratoire de Chimie - UMR5182 (LC), École normale supérieure - Lyon (ENS Lyon)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS), Massaro, A., Avila, J., Goloviznina, K., Rivalta, I., Gerbaldi, C., Pavone, M., Costa Gomes, M. F., Padua, A. A. H., Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-École normale supérieure - Lyon (ENS Lyon)-Institut de Chimie du CNRS (INC), Dipartimento di Scienze Chimiche [Naples], Complesso Universitario Monte Sant'Angelo, Università di Napoli Federico II, Dipartimento di Chimica Industriale 'Toso Montanari', Alma Mater Studiorum Università di Bologna [Bologna] (UNIBO), Politecnico di Torino = Polytechnic of Turin (Polito), Massaro A., Avila J., Goloviznina K., Rivalta I., Gerbaldi C., Pavone M., Costa Gomes M.F., Padua A.A.H., École normale supérieure de Lyon (ENS de Lyon)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), University of Naples Federico II = Università degli studi di Napoli Federico II, and ANR-16-IDEX-0005,IDEXLYON,IDEXLYON(2016)

Subjects
sodium battery, post lithium battery, room temperature ionic liquid, sodium electrolyte, modelling, Ions transport, ionic liquids, sodium-ion batteries, molecular dynamics, polarizable force field, Materials science, Sodium, General Physics and Astronomy, chemistry.chemical_element, Ionic bonding, Thermodynamics, 02 engineering and technology, Electrolyte, 010402 general chemistry, 7. Clean energy, 01 natural sciences, Ion, chemistry.chemical_compound, Molecular dynamics, [CHIM.GENI]Chemical Sciences/Chemical engineering, Physical and Theoretical Chemistry, Polarization (electrochemistry), ComputingMilieux_MISCELLANEOUS, Solvation, 021001 nanoscience & nanotechnology, 0104 chemical sciences, [CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistry, chemistry, Ionic liquid, 0210 nano-technology
Abstract

Understanding the transport of sodium ions in ionic liquids is key to designing novel electrolyte materials for sodium-ion batteries. In this work, we combine molecular dynamics simulation and experiments to study how molecular interactions and local ordering affect relevant physico-chemical properties. Ionic transport and local solvation environments are investigated in electrolytes composed of sodium bis(fluorosulfonyl)imide, (Na[FSI]), in N,N-methylpropylpyrrolidinium bis(fluorosulfonyl)imide, [C3C1pyr][FSI], at different salt concentrations. The electrolyte systems are modelled by means of molecular dynamic simulations using a polarizable force field. We show that including polarization effects explicitly in the molecular simulations is required in order to attain a reliable description of the transport properties of sodium in the [C3C1pyr][FSI] electrolyte. The validation of the computational results upon comparison with experimental data allows us to assess the suitability of polarizable force fields in describing and interpreting the structure and dynamics of the sodium salt-ionic liquid system, which is essential to enable the application of IL-based electrolytes in novel energy-storage technologies.

Published
2020
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14. Characteristics of aggregation in aqueous solutions of dialkylpyrrolidinium bromides.

Author

Tariq M, Podgoršek A, Ferguson JL, Lopes A, Costa Gomes MF, Pádua AA, Rebelo LP, and Canongia Lopes JN

Abstract

Three pyrrolidinium-based ionic liquids-N-dodecyl-N-methylpyrrolidinium bromide, N-butyl-N-octylpyrrolidinium bromide, and N-butyl-N-dodecylpyrrolodinium bromide-were synthesized and characterized by their decomposition temperatures (T(d)) measured by thermogravimetric analysis, and by their melting point (T(m)), glass transition (T(g)) and crystallization temperatures (T(cryst)) determined by differential scanning calorimetry. Their self-aggregation properties in aqueous solution were studied and their behavior is compared with that of analogous conventional cationic surfactants, namely tetra-alkylammonium bromide salts. The critical micellar concentration, cmcs were obtained by isothermal titration calorimetry (ITC); which were further validated by measurements of interfacial tension, fluorescence and NMR spectroscopy. Enthalpies of micellization were measured at three different temperatures using ITC. The Taylor dispersion method and DOSY NMR were used to determine diffusion coefficients of the ionic liquid surfactants in aqueous solution at 298.15K. Several correlations between structural features of the surfactant species, such as the number and size of their alkyl chains, and the thermodynamic quantities of micellization-expressed by experimental values of cmc, counter-ion binding fraction, Δ(mic)G°, Δ(mic)°, and Δ(mic)S°-are established. We could interpret the different contributions of the two alkyl side chains to the aggregation properties in terms of the balance of interactions in homogeneous and micellar phases, contributing to understanding the aggregation behavior of ionic liquids in water and the parallel between these systems and traditional ionic surfactants., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published
2011
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15. Solvation of halogens in fluorous phases. Experimental and simulation data for F2, Cl2, and Br2 in several fluorinated liquids.

Author

Podgorsek A, Stavber S, Zupan M, Iskra J, Padua AA, and Costa Gomes MF

Abstract

The solubility of halogen gases--fluorine, chlorine and bromine--has been determined experimentally in several fluorinated solvents between 283 and 323 K at atmospheric pressure. The solubility of chlorine was studied in perfluorooctane, perfluorohexane, perfluorohexylethane, perfluoromethylcyclohexane, perfluoro-1,3-dimethylcyclohexane, perfluoro-2-butyltetrahydrofuran, and perfluoroperhydrophenanthrene and was found to be on the order of 10(-2) in mole fraction. The solubility of fluorine in the studied fluorinated solvents at 298 K is 1 order of magnitude lower than the solubility of chlorine. The solubility of bromine was studied as a function of temperature in perfluorooctane, and it was found to be higher than that of chlorine but of the same order of magnitude. The experimental studies were complemented by molecular simulation calculations. The molecular force fields used for the halogen gases and for the fluorinated solvents were taken, when possible, from the literature. An intermolecular potential model had to be developed for perfluoro-2-butyltetrahydrofuran, with a functional form of the Lennard-Jones plus point charges type. The solubility of the three gases was calculated by molecular simulation using Widom test-particle insertion. Dissimilar interaction parameters of 0.89 and 0.75 in the Lennard-Jones well depths between the solute and the solvent had to be introduced to reach agreement with the experimental results for chlorine and fluorine solubilities, respectively. The structure of the solutions was studied by analysis of solute-solvent radial distribution functions. It was found that the preferential solvation sites for the halogen gases are the terminal CF3 groups of the different fluorinated solvents.

Published
2008
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16. Aqueous solubility, Henry's law constants and air/water partition coefficients of n-octane and two halogenated octanes.

Author

Sarraute S, Delepine H, Costa Gomes MF, and Majer V

Subjects
Solubility, Temperature, Water chemistry, Hydrocarbons, Halogenated chemistry, Octanes chemistry, Thermodynamics
Abstract

New data on the aqueous solubility of n-octane, 1-chlorooctane and 1-bromooctane are reported between 1 degree C and 45 degrees C. Henry's law constants, K(H), and air/water partition coefficients, K(AW), were calculated by associating the measured solubility values to vapor pressures taken from literature. The mole fraction aqueous solubility varies between (1.13-1.60)x10(-7) for n-octane with a minimum at approximately 23 degrees C, (3.99-5.07)x10(-7) for 1-chlorooctane increasing monotonically with temperature and (1.60-3.44)x10(-7) for 1-bromooctane with a minimum near 18 degrees C. The calculated air-water partition coefficients increase with temperature and are two orders of magnitude lower for the halogenated derivatives compared to octane. The precision of the results, taken as the average absolute deviations of the aqueous solubility, the Henry's law constants, or the air/water partition coefficients, from appropriate smoothing equations as a function of temperature is of 3% for n-octane and of 2% and 4% for 1-chlorooctane and 1-bromooctane, respectively. A new apparatus based on the dynamic saturation column method was used for the solubility measurements. Test measurements with n-octane indicated the capability of measuring solubilities between 10(-6) and 10(-10) in mole fraction, with an estimated accuracy better than +/-10%. A thorough thermodynamic analysis of converting measured data to air/water partition coefficients is presented.

Published
2004
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