Abstract
In this research the interaction of dioxovanadium(V) with iminodiacetic acid has been considered at 25 °C and pH=1.00–2.50 in an ionic strength range of 0.1 to 1.0 mol⋅dm−3 of NaClO4 by UV spectrophotometric and potentiometric techniques. Only one species, VO2H2L+, was assumed on the basis of two stoichiometric models. The extended Debye-Hückel theory predicts the first order effects in simple electrolyte solutions. Interactions between the reacting species and the ionic medium are taken into account in the specific ion interaction model. Parabolic, specific ion interaction, and extended Debye-Hückel models have been compared and it has been shown that the parabolic model with two coefficients is satisfactory for this complexation reaction. The results have also been compared with the literature values.
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Crea, F., De Stefano, C., Gianguzza, A., Piazzese, D., Sammartano, S.: Speciation of poly-amino carboxylic compounds in seawater. Chem. Speciat. Bioavailab. 15, 75–86 (2003)
Kula, R.J.: Solution equilibria and structures of molybdenum(VI) chelates, N-methyliminodiacetic acid. Anal. Chem. 38, 1382–1388 (1966)
Kula, R.J.: Solution equilibria and structures of molybdenum(VI) chelates, (ethylenedinitrilo) tetraacetic acid. Anal. Chem. 38, 1581–1584 (1966)
Kula, R.J., Rabenstein, D.L.: Potentiometric determination of stabilities of molybdenum(VI) and tungsten(VI) chelates. Anal. Chem. 38, 1934–1936 (1966)
Kula, R.J.: Structural and bonding characteristics in the molybdenum(VI)-iminodiacetate system determined by infrared and proton nuclear magnetic resonance techniques. Anal. Chem. 39, 1171–1175 (1967)
Lagrange, P., Schneider, M., Lagrange, J.: Complexes of oxovanadium(IV), dioxovanadium(V) and dioxouranium(VI) with aminoacids in aqueous solution. J. Chim. Phys. 95, 2280–2299 (1998)
Majlesi, K., Rezaienejad, S.: Study on the complexation of molybdenum(VI) with iminodiacetic acid and ethylenediamine-N,N′-diacetic acid by specific ion interaction and Debye-Hückel Theories. Chin. J. Chem. 25, 1815–1820 (2007)
Majlesi, K., Zare, K.: A modified equation for the calculation of the stability constants of W(VI)-NTA, Mo (VI)-NTA and Mo (VI)-glutamic acid complexes at different ionic strengths. J. Mol. Liq. 125, 66–71 (2006)
Majlesi, K., Zare, K.: Determination and comparison of stability constants of tungsten(VI) and molybdenum(VI) with nitrilotriacetic acid and glutamic acid at different ionic strengths. Phys. Chem. Liq. 44, 257–268 (2006)
Majlesi, K., Zare, K.: Interaction of tungsten(VI) and molybdenum(VI) with nitrilotriacetic acid and glutamic acid in different sodium perchlorate aqueous solutions. Russ. J. Inorg. Chem. 50, 1621–1628 (2005)
Gharib, F., Zare, K., Majlesi, K.: Ionic strength dependence of formation constants, protonation and complexation of phenylalanine with dioxovanadium(V) at different temperatures. J. Chem. Res. 186–187 (2000)
Majlesi, K., Zare, K.: Complexation of dioxovanadium(V) with glycylglycine in sodium perchlorate aqueous solution. J. Mol. Liq. 125, 62–65 (2006)
Majlesi, K., Rezaienejad, S.: Complexation of dioxovanadium(V) with methyliminodiacetic acid in NaClO4 aqueous solutions at different ionic strengths by using an extended Debye-Hückel Equation, specific ion interaction theory, and parabolic equations. J. Chem. Eng. Data 55, 882–888 (2010)
Majlesi, K., Rezaienejad, S.: Application of the parabolic model, specific ion interaction, and Debye-Hückel theories for the complexation of dioxovanadium(V) with ethylenediamine-N,N′-diacetic acid. J. Chem. Eng. Data 54, 1483–1492 (2009)
Majlesi, K., Gholamhosseinzadeh, M., Rezaienejad, S.: Interaction of molybdenum(VI) with methyliminodiacetic acid at different ionic strengths by using parabolic, extended Debye-Hückel and specific ion interaction models. J. Solution Chem. 39, 665–679 (2010)
Zare, K., Lagrange, P., Lagrange, J.: Determination and comparison of stability constants of vanadium(V), molybdenum(VI) and tungsten(VI) aminocarboxylate complexes. J. Chem. Soc., Dalton Trans. 1372–1376 (1979)
Gaizer, F., Lazar, J., Kiss, J.T., Poczik, E.: Protonation and complex formation equilibria of N-(phenylcarbamoylmethyl) iminodiacetic acid derivatives-I. The complexes of HIDA and diethylcarbamoyl-MIDA. Polyhedron 11, 257–264 (1992)
Anderegg, G.: The stability of iron (III) complexes formed below pH=3 with glycinate, iminodiacetate, β-hydroxyethyliminodiacetate, N, N-di-(Hydroxyethyl)-glycinate, nitrilotriacetate and triethanolamine. Inorg. Chim. Acta 121, 229–231 (1986)
Majlesi, K., Zare, K., Najafi, F.: Ionic strength dependence of stability constants, complexation of W(VI) with iminodiacetic acid. Russ. J. Inorg. Chem. 52, 1299–1303 (2007)
Majlesi, K.: Ionic strength dependence patterns for the Mo(VI) + NTA and Mo(VI) + EDTA systems. Rev. Inorg. Chem. 26, 507–520 (2006)
Daniele, P.G., Rigano, C., Sammartano, S.: Ionic strength dependence of formation constants. alkali metal complexes of EDTA, NTA, diphosphate and tripolyphosphate in aqueous solution. Anal. Chem. 57, 2956–2960 (1985)
Daniele, P.G., Rigano, C., Sammartano, S., Zelano, V.: Ionic strength dependence of formation constants–XVIII. The hydrolysis of iron(III) in aqueous KNO3 solutions. Talanta 41, 1577–1582 (1994)
De Stefano, C., Gianguzza, A., Piazzese, D., Sammartano, S.: Polyacrylate protonation in various aqueous ionic media at different temperatures and ionic strengths. J. Chem. Eng. Data 45, 876–881 (2000)
Crea, P., De Stefano, C., Millero, F.J., Sammartano, S., Sharma, V.K.: Dissociation constants of protonated oxidized glutathione in seawater media at different salinities. Aquat. Geochem. 16, 447–466 (2010)
De Stefano, C., Gianguzza, A., Pettignano, A., Sammartano, S., Sciarrino, S.: On the complexation of Cu(II) and Cd(II) with polycarboxyl ligands. Potentiometric studies with ISE-H+, ISE-Cu2+, and ISE-Cd2+. J. Chem. Eng. Data 55, 714–722 (2010)
Foti, C., Sammartano, S.: ionic strength dependence of protonation constants of carboxylate ions in NaClaq (0 < I<5.6 mol⋅kg−1) and KClaq (0<I<4.5 mol⋅kg−1): Specific ion interaction theory and Pitzer parameters and the correlation between them. J. Chem. Eng. Data 55, 904–911 (2010)
Bretti, C., De Stefano, C., Foti, C., Giuffre, O., Sammartano, S.: Thermodynamic protonation parameters of some sulfur-containing anions in NaClaq and (CH3)4NClaq at t=25 ○C. J. Solution Chem. 38, 1225–1245 (2009)
Crea, F., De Stefano, C., Milea, D., Sammartano, S.: Speciation of phytate ion in aqueous solution. thermodynamic parameters for zinc(II) sequestration at different ionic strengths and temperatures. J. Solution Chem. 38, 115–134 (2009)
Berto, S., Crea, F., Daniele, P.G., De Stefano, C., Prenesti, E., Sammartano, S.: Sequestering ability of dicarboxylic ligands towards dioxouranium(VI) in NaCl and KNO3 aqueous solutions at T=298.15 K. J. Solution Chem. 38, 1343–1356 (2009)
Foti, C., Giuffre, O., Lando, G., Sammartano, S.: Interaction of inorganic mercury(II) with polyamines, polycarboxylates, and amino acids. J. Chem. Eng. Data 54, 893–903 (2009)
Battaglia, G., Crea, F., Crea, P., De Stefano, C., Sammartano, S.: Medium effect on the acid-base properties of branched polyethylenimine in different aqueous electrolyte solutions. J. Chem. Eng. Data 54, 502–510 (2009)
Bretti, C., Crea, F., Giuffre, O., Sammartano, S.: The effect of different aqueous ionic media on the acid-base properties of some open chain polyamines. J. Solution Chem. 37, 183–201 (2008)
Bretti, C., De Stefano, C., Millero, F.J., Sammartano, S.: Modeling of protonation constants of linear aliphatic dicarboxylates containing-S-groups in aqueous chloride salt solutions, at different ionic strengths, using the sit and Pitzer equations and empirical relationships. J. Solution Chem. 37, 763–784 (2008)
Grenthe, I., Wanner, H.: (2000) TDB-2 guidelines for the extrapolation to zero ionic strength; minor revisions by Osthols, Erik. http://www.nea.fr/html/dbtdb/guidelines/tdb2.pdf. Version of 6th January 2000
Thakur, P., Mathur, J.N., Moore, R.C., Choppin, G.R.: Thermodynamics and dissociation constants of carboxylic acids at high ionic strength and temperature. Inorg. Chim. Acta 360, 3671–3680 (2007)
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Majlesi, K., Rezaienejad, S., Mehnatfarsa, S. et al. Ionic Strength Effect on the Stability of the V(V) + IDA Complex. J Solution Chem 40, 545–560 (2011). https://doi.org/10.1007/s10953-011-9661-y
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DOI: https://doi.org/10.1007/s10953-011-9661-y