Making Sense of Enthalpy of Vaporization Trends for Ionic Liquids: New Experimental and Simulation Data Show a Simple Linear Relationship and Help Reconcile Previous Data

Vaporization enthalpy of an ionic liquid (IL) is a key physical property for applications of ILs as thermofluids and also is useful in developing liquid state theories and validating intermolecular potential functions used in molecular modeling of these liquids. Compilation of the data for a homolog...

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Veröffentlicht in:	The journal of physical chemistry. B 2013-05, Vol.117 (21), p.6473-6486
Hauptverfasser:	Verevkin, Sergey P., Zaitsau, Dzmitry H., Emel’yanenko, Vladimir N., Yermalayeu, Andrei V., Schick, Christoph, Liu, Hongjun, Maginn, Edward J., Bulut, Safak, Krossing, Ingo, Kalb, Roland
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Sprache:	eng
Schlagworte:	Cations Chemical thermodynamics Chemistry Enthalpy Exact sciences and technology General and physical chemistry Ionic liquids Liquids Mathematical models Microbalances Molecular dynamics Vaporization
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creator	Verevkin, Sergey P. Zaitsau, Dzmitry H. Emel’yanenko, Vladimir N. Yermalayeu, Andrei V. Schick, Christoph Liu, Hongjun Maginn, Edward J. Bulut, Safak Krossing, Ingo Kalb, Roland
description	Vaporization enthalpy of an ionic liquid (IL) is a key physical property for applications of ILs as thermofluids and also is useful in developing liquid state theories and validating intermolecular potential functions used in molecular modeling of these liquids. Compilation of the data for a homologous series of 1-alkyl-3-methylimidazolium bis(trifluoromethane-sulfonyl)imide ([C n mim][NTf2]) ILs has revealed an embarrassing disarray of literature results. New experimental data, based on the concurring results from quartz crystal microbalance, thermogravimetric analyses, and molecular dynamics simulation have revealed a clear linear dependence of IL vaporization enthalpies on the chain length of the alkyl group on the cation. Ambiguity of the procedure for extrapolation of vaporization enthalpies to the reference temperature 298 K was found to be a major source of the discrepancies among previous data sets. Two simple methods for temperature adjustment of vaporization enthalpies have been suggested. Resulting vaporization enthalpies obey group additivity, although the values of the additivity parameters for ILs are different from those for molecular compounds.
doi_str_mv	10.1021/jp311429r
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subjects	Cations Chemical thermodynamics Chemistry Enthalpy Exact sciences and technology General and physical chemistry Ionic liquids Liquids Mathematical models Microbalances Molecular dynamics Vaporization
title	Making Sense of Enthalpy of Vaporization Trends for Ionic Liquids: New Experimental and Simulation Data Show a Simple Linear Relationship and Help Reconcile Previous Data
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