Thermodynamic Properties of Ether-Functionalized Ionic Liquids [COC4mim][Tau]

The ether-functionalized ionic liquid 1-(4-methoxy-butyl)-3-methylimidazolium taurine [COC4mim][Tau] was prepared and characterized. The density (ρ), surface tension (γ), and refractive index (n D) were measured at 288.15–328.15 K using a standard addition method. The molar volume (V), standard ent...

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Veröffentlicht in:	Journal of chemical and engineering data 2024-05, Vol.69 (5), p.1805-1813
Hauptverfasser:	Wu, Junshuang, Wei, Ning, Xuan, YueHeng, Chen, Xia, Tong, Jing
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Sprache:	eng
Schlagworte:	Thermophysical and Thermochemical Properties
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creator	Wu, Junshuang Wei, Ning Xuan, YueHeng Chen, Xia Tong, Jing
description	The ether-functionalized ionic liquid 1-(4-methoxy-butyl)-3-methylimidazolium taurine [COC4mim][Tau] was prepared and characterized. The density (ρ), surface tension (γ), and refractive index (n D) were measured at 288.15–328.15 K using a standard addition method. The molar volume (V), standard entropy (S θ), lattice energy (U lattice), surface entropy (S a), surface energy (E a), and molar surface Gibbs free energy (G m,s) were calculated using the density and surface tension data. By refractive index data, the degree of molar polarization (R m), molar polarizability (αp), and its surface tension (γpre) were predicted. The results showed that its predicted value was highly similar to the measured value. Then, the variation of vapor pressure (p) of [COC4mim][Tau] with temperature was discussed using thermogravimetric analysis of experimental data. It was found that p increased exponentially with temperature, and compared to low temperature, a high temperature is more conducive to the increase of p for [COC4mim][Tau]. The enthalpy of vaporization (Δl g H m θ(T av)) at average temperature (T av) was calculated by combining the Langmuir equation with the Clausius–Clapeyron equation, and it was converted into the enthalpy of vaporization (Δl g H m θ(298.15)) at ambient temperature (298.15). It is hoped that these thermodynamic properties data can provide a theoretical basis for the subsequent research.
doi_str_mv	10.1021/acs.jced.3c00640
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The density (ρ), surface tension (γ), and refractive index (n D) were measured at 288.15–328.15 K using a standard addition method. The molar volume (V), standard entropy (S θ), lattice energy (U lattice), surface entropy (S a), surface energy (E a), and molar surface Gibbs free energy (G m,s) were calculated using the density and surface tension data. By refractive index data, the degree of molar polarization (R m), molar polarizability (αp), and its surface tension (γpre) were predicted. The results showed that its predicted value was highly similar to the measured value. Then, the variation of vapor pressure (p) of [COC4mim][Tau] with temperature was discussed using thermogravimetric analysis of experimental data. It was found that p increased exponentially with temperature, and compared to low temperature, a high temperature is more conducive to the increase of p for [COC4mim][Tau]. The enthalpy of vaporization (Δl g H m θ(T av)) at average temperature (T av) was calculated by combining the Langmuir equation with the Clausius–Clapeyron equation, and it was converted into the enthalpy of vaporization (Δl g H m θ(298.15)) at ambient temperature (298.15). 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Chem. Eng. Data</addtitle><description>The ether-functionalized ionic liquid 1-(4-methoxy-butyl)-3-methylimidazolium taurine [COC4mim][Tau] was prepared and characterized. The density (ρ), surface tension (γ), and refractive index (n D) were measured at 288.15–328.15 K using a standard addition method. The molar volume (V), standard entropy (S θ), lattice energy (U lattice), surface entropy (S a), surface energy (E a), and molar surface Gibbs free energy (G m,s) were calculated using the density and surface tension data. By refractive index data, the degree of molar polarization (R m), molar polarizability (αp), and its surface tension (γpre) were predicted. The results showed that its predicted value was highly similar to the measured value. Then, the variation of vapor pressure (p) of [COC4mim][Tau] with temperature was discussed using thermogravimetric analysis of experimental data. It was found that p increased exponentially with temperature, and compared to low temperature, a high temperature is more conducive to the increase of p for [COC4mim][Tau]. The enthalpy of vaporization (Δl g H m θ(T av)) at average temperature (T av) was calculated by combining the Langmuir equation with the Clausius–Clapeyron equation, and it was converted into the enthalpy of vaporization (Δl g H m θ(298.15)) at ambient temperature (298.15). 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Chem. Eng. Data</addtitle><date>2024-05-09</date><risdate>2024</risdate><volume>69</volume><issue>5</issue><spage>1805</spage><epage>1813</epage><pages>1805-1813</pages><issn>0021-9568</issn><eissn>1520-5134</eissn><abstract>The ether-functionalized ionic liquid 1-(4-methoxy-butyl)-3-methylimidazolium taurine [COC4mim][Tau] was prepared and characterized. The density (ρ), surface tension (γ), and refractive index (n D) were measured at 288.15–328.15 K using a standard addition method. The molar volume (V), standard entropy (S θ), lattice energy (U lattice), surface entropy (S a), surface energy (E a), and molar surface Gibbs free energy (G m,s) were calculated using the density and surface tension data. By refractive index data, the degree of molar polarization (R m), molar polarizability (αp), and its surface tension (γpre) were predicted. The results showed that its predicted value was highly similar to the measured value. 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title	Thermodynamic Properties of Ether-Functionalized Ionic Liquids [COC4mim][Tau]
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