Noura Dawass

B IBLIOGRAPHY [1] B. E. Poling, J. M. Prausnitz, and J. P. O’Connell, The properties of gases and liquids , 5th ed., Vol. 5 (Mcgraw-hill, 2001). [2] O. Pfohl and R. Dohrn, Provision of thermodynamic properties of polymer systems for industrial applications, Fluid Phase Equilibria 217 , 189–199 (2004). [3] S. I. Sandler, Chemical, biochemical, and engineering thermodynamics , 4th ed. (John Wiley & Sons, New York, USA, 2006). [4] E. Hendriks, G. M. Kontogeorgis, R. Dohrn, J.-C. de Hemptinne, I. G. Economou, L. F. ˘Zilnik, and V. Vesovic, Industrial requirements for ther- modynamics and transport properties, Industrial & Engineering Chemistry Research 49 , 11131–11141 (2010). [5] E. J. Maginn, Molecular simulation of ionic liquids: current status and future opportunities, Journal of Physics: Condensed Matter 21 , 373101 (2009). [6] L. J. B. M. Kollau, M. Vis, A. van den Bruinhorst, A. C. C. Esteves, and R. Tu- inier, Quantification of the liquid window of deep eutectic solvents, Chemi- cal Communications 54 , 13351–13354 (2018). [7] B. Dahlgren, M. M. Reif, P. H. Hünenberger, and N. Hansen, Calculation of derivative thermodynamic hydration and aqueous partial molar properties of ions based on atomistic simulations, Journal of Chemical Theory and Computation 8 , 3542–3564 (2012). [8] I. Nezbeda, F. Mouˇcka, and W. R. Smith, Recent progress in molecular sim- ulation of aqueous electrolytes: Force fields, chemical potentials and solu- bility, Molecular Physics 114 , 1665–1690 (2016). [9] K. N. Marsh, J. A. Boxall, and R. Lichtenthaler, Room temperature ionic liq- uids and their mixtures–a review, Fluid Phase Equilibria 219 , 93–98 (2004). [10] J. E. S. J. Reid, A. J. Walker, and S. Shimizu, Residual water in ionic liquids: clustered or dissociated? Physical Chemistry Chemical Physics 17 , 14710– 14718 (2015). 137

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