Chemistry Reference
In-Depth Information
57 Brandariz, I., Castro, P., Montes, M., Penedo, F., and Sastre de Vicente, M.E.
Equilibrium constants of triethanolamine in major seawater salts.
Mar. Chem.
2006,
102
, 291-299.
58 Xu, X., Pinho, S.P., and Macedo, E.A. Activity coefficient and solubility of amino
acids in water by the modified Wilson model.
Ind. Eng. Chem. Res.
2004,
43
,
3200-3204.
59 Chung, Y.-M. and Vera, J.H. Activity of the electrolyte and the amino acid in the
systems water + DL,α-aminobutyric acid + NaCl, +NaBr, +KCl, and +KBr at
298.2 K.
Fluid Phase Equilib.
2002,
203
, 99-110.
60 Chung, Y.-M. and Vera, J.H. Activity coefficients of the peptide and the electrolyte
in ternary systems water + glycylglycine + NaCl, +NaBr, +KCl and +KBr at
298.2 K.
Biophys. Chem.
2001,
92
, 77-88.
61 Mortazavi-Manesh, S., Ghotbi, C., and Taghikhani, V. A new model for predicting
activity coefficients in aqueous solutions of amino acids and peptides.
J. Chem.
Thermodyn.
2003,
35
, 101-112.
62 Soto-Campos, A.M., Khoshkbarchi, M.K., and Vera, J.H. Activity coefficients
of the electrolyte and the amino acid in water + NaNO
3
+ glycine and
water + NaCl + DL-methionine systems at 298.15 K.
Biophys. Chem.
1997,
67
,
97-105.
63 Khoshkbarchi, M.K. and Vera, J.H. Measurement and modeling of activities of
amino acids in aqueous salt systems.
AIChE J.
1996,
42
, 2354-2363.
64 Khoshkbarchi, M.K. and Vera, J.H. A perturbed hard-sphere model with mean
spherical approximation for the activity coefficients of amino acids in aqueous
electrolyte solutions.
Ind. Eng. Chem. Res.
1996,
35
, 4755-4766.
65 Khoshkbarchi, M.K., Soto-Campos, A.M., and Vera, J.H. Interactions of DL-
serine and L-serine with NaCl and KCl in aqueous solutions.
J. Solut. Chem.
1997,
26
, 941-955.
66 Held, C., Cameretti, L.F., and Sadowski, G. Measuring and modeling activity
coefficients in aqueous amino-acid solutions.
Ind. Eng. Chem. Res.
2011,
50
,
131-141.
67 Davies, C.W.
Ion Association
. Butterworths, London, 1962.
68 Debye, P. and Huckel, E. Theory of electrolytes. I. Lowering of freezing point and
related phenomena.
Z. Phys.
1923,
24
, 185-206.
69 Akerlof, G.C. and Oshry, H.I. The dielectric constant of water at high
temperatures and in equilibrium with its vapor.
J. Am. Chem. Soc.
1950,
72
,
2844-2847.
70 Gharib, F., Farajtabar, A., Farahani, A.M., and Bahmani, F. Solvent effects on
protonation constants of tryptophan in some aqueous aliphatic alcohol solutions.
J. Chem. Eng. Data
2010,
55
, 327-332.
71 Dogan, A. and Kiliç, E. Tautomeric and microscopic protonation equilibria of
some α-amino acids.
Anal. Biochem.
2007,
365
, 7-13.
72 Pillai, L., Boss, R.D., and Greenberg, M.S. On the role of solvent in complexation
equilibiria. II. The acid-base chemistry of some sulfhydryl and ammonium-
containing amino acids in water-acetonitrile mixed solvents.
J. Solut. Chem.
1979,
8
, 635-646.
Search WWH ::
Custom Search