[1] G. R. Pazuki, A. A. Rohani, and A. Dashtizadeh (2005), "Correlation of the mean ionic activity coefficients of electrolytes in aqueous amino acid and peptide systems", Fluid Phase Equilib, 231, 171–175.
[2] G. Marcozzi (1991), "Protein extraction byreverse micelles: a study of the factors affecting the forward and backward transfer of alpha-chymotrypsin and its activity", Biotechnol. Bioeng., 38(10), 1239–1246.
[3] P. L. Luisi, M. Giomini, M. P. Pileni, and B. H. Robinson (1988), "Reversed micelles as hosts for proteins and small molecules", Biochim. Biophys. Acta. 947(1) 209–246.
[4] K. E. Goklen, and T. A. Hatton (1987), "Liquid–liquid extraction of low molecular proteins by selective Solubilization in reversed micelles", Sep. Sci. Technol., 22( 2–3), 831–841.
[5] Eastoe, J. Hollamby, M.J. Hudson, L., "Recent advances in nanoparticle synthesis with reversed micelles", Adv. Colloid Interface Sci., 128–130, pp. 5–15, 2006.
[6] J. H. Vera, H.R. Rabie and T. Suyyagh, "Reverse micellar extraction of proteins using dioctyldimethyl ammonium chloride", Sep. Sci. Technol., 32(2), 241–257.
[7] A. Haghtalab and Sh. Osfouri (2004), "A simple complexation model and the experimental datafor protein extraction using reverse micellar systems",Iran. J. Biotechnol., 2( 2), 106–112.
[8]J.M. Woll and T. A. Hatton (1989), "A simple phenomenological thermodynamic model for protein partitioning in reversed micellar systems", Bioprocess Eng., 4(5), 193–199.
[9] H. R. Rabie and J. H. Vera (1998),"A simple model for reverse micellar extraction of proteins", Sep. Sci. Technol., 33( 8), 1181–1193.
[10] S. N. Ashrafizadeh and M. K. Khoshkbarchi (1998), "Modeling and Experimental Data for the Reverse Micellar Extraction of Proteins Using a New Surfactant", Sep. Sci. Technol, 33(16), 2579–2595.
[11] D. Bratko,A. Luzar and S. H. Chen (1988), "Electrostatic model for protein/reverse micellar complexation", J. Chem.Phys., 89(1) 545–550.
[12] P. Bruno,M. Caselli,P. L. Luisi,M. Maestro and A. Traini (1990),"A simplified thermodynamic model for protein by uptake reverse micelles: theoretical and experimental results", J. Phys. Chem., 94(15), 5908– 5917.
[13] S. Brandani, V. Brandani and G. D. Giacomo (1994), "A thermodynamic model for protein partitioning in reversed micellar systems", Chem. Eng. Sci., 49(21), 3681–3686..
[14] A. Haghtalab and Sh. Osfouri (2003), "Vacancy solution theory for partitioning of protein in reverse micellar systems", Sep. Sci. Technol., 38(3), 553–569.
[15] M. M.Dubinin (1977), New results in investigations of equilibria and kinetics of adsorption of gases on zeolites,.4th International Conference on Molecular sieves, University of Chicago, April 18–22.
[16] S. Suwanyuen and R. P. Danner (1980),"A gas adsorption isotherm equation based on vacancy solution theory",AIChE J., 26(1), 68–76.
[17] E. H. Lucassen-Reynders (1976), "Adsorption of surfactant monolayers at gas/liquid and liquid/liquid interfaces",Prog. Surf. Membr. Sci., 10, 253–360.
[18] H. Renon and J. M. Prausnitz (1968), "Local Compositions in Thermodynamic Excess Functions For Liquid Mixtures." AIChE J., 14(1), 135–142.
[19] A. Haghtalab and J. H. Vera (1988) "A Nonrandom factor model for the excess Gibbs free energy of electrolyte solutions." AIChE J., 34(5) 803-813.
[20] R. Sadeghi (2005), "New local composition model for electrolyte solutions.", Fluid Phase Equilibria., 231, 53-60.
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