Abstract
The extraction process of ternary ion-association complexes of molybdenum (VI) with some polyphenols (4-nitrocatechol, 2,3-dihydroxy naphthalene) and thiazolyl blue has been investigated by using an extraction-spectrophotometric method. The optimum conditions for their quantitative preparation in aqueous medium and subsequent extraction into an organic solvent have been found. The extraction, distribution and association constants, and the recovery factors have been calculated. The composition of the complexes has been determined. A precise, sensitive and simple extraction-spectrophotometric method for determination of molybdenum in products from ferrous metallurgy has been developed.
[1] A.I. Busev: Analytical Chemistry of Molybdenum, Nauka, Moscow, 1962. Search in Google Scholar
[2] L. Sommer and M. Bartušek: “Complexation of phenolic hydroxyl and its analytical consequences”, Folia Fac. Sci. Nat. UJEP Brno Chem., Vol. 7(5), (1966). Search in Google Scholar
[3] A.T. Pilipjenko and M.M. Tananayko: Mixed Ligand and Mixed Metal Complexes and their Application in Analytical Chemistry, Khimiya, Moscow, 1983. Search in Google Scholar
[4] A. Alexandrov: Tetrazolium Salls for Solvent Extraction of Elements as Ion association Complexes. Review, Universität des Saarnlades, Saarbrücken, 1984. Search in Google Scholar
[5] A. Dimitrov and A. Alexandrov: “Investigation of the extraction equilibrium of ternary ion-association complexes of wolfram (VI) with some polyphenols and tetrazolium salts. Determination of wolfram”, Anal. Lab., Vol. 4, (1995), pp. 172–179. Search in Google Scholar
[6] S. Kostova, A. Alexandrov and A. Dimitrov: “Ion-association complexes of titanium(IV) with polyphenols and tetrazolium salt. Extraction-spectrophotometric determination of titanium in steels and aluminium alloys”, Anal. Lab, Vol. 7, (1998), pp. 13–19. Search in Google Scholar
[7] A. Dimitrov, S. Kostova and A. Alexandrov: “Extraction-spectrophotometric study of the ion-association complexes of germanium(IV) with 4-nitrocatechol and 2,3,5-triphenyltetrazolium chloride”, Anal. Lab., Vol. 7, (1998), pp. 20–23. Search in Google Scholar
[8] S. Kostova, A. Dimitrov and A. Alexandrov: “Complexation of titanium(IV) with 4-nitrocatechol and tetrazolium salts tetrazolviolet and iodonitrotetrazolium chloride”, Chem. Pap., Vol. 54 (2000), pp. 66–71. Search in Google Scholar
[9] A. Dimitrov and S. Kostova: “Extraction—spectrophotometric study of germanium(IV) ion-association complexes with 4-nitrocatechol and thiazolyl blue”, Bulg. Chem. and Industry, Vol. 70, (1999), pp. 88–90. Search in Google Scholar
[10] A. Dimitrov, S. Kostova, J. Pancheva and V. Lekova: “Extraction spectrophotometric studies of the ion association complex of molybdenum(VI) with 4-nitrocatechol and Tetrazolium violet”, Bulg. Chem. and Industry, Vol. 73, (2002), p. 20. Search in Google Scholar
[11] S. Kostova and A. Dimitrov: “Extraction Spectrophotometric studies of Molybdenum(VI) Ion—Association Complexes with some Polyphenols and Tetrazolium Salts”, Bulg. Chem. and Industry, Vol. 71, (2000) p. 44. Search in Google Scholar
[12] Zh. Simeonova, K. Gavazov and A. Alexandrov: “Ternary Complexes of Vanadium(V) with 4-nitrocathechol and Tetrazolium Salt and its Application to Extraction-Spectrophotometric Determination of Vanadium(V) in Steels”, Anal. Lab., Vol. 7, (1998), pp. 184–188. Search in Google Scholar
[13] K. Gavazov, Zh. Simeonova and A. Alexandrov: “Extraction-Spectrophotometric Study of Ternary Ion-Association Complexes of Vanadium(IV) with Pyrogallol and Tetrazolium Salts”, Russian J. Inorg. Chem., Vol. 45, (2000), pp. 133–138. Search in Google Scholar
[14] K. Gavazov, Zh. Simeonova and A. Alexandrov: “Extraction-Spectrophotometric Study of the System Vanadium(V)— Pyrogallol—Iodo-nitro-tetrazolium Chloride —Water—n-Butanol”, Russian J. Inorg. Chem., Vol. 46, (2001), pp. 427–431. Search in Google Scholar
[15] M.I. Bulatov and I.P. Kalinkin: Practical Handbook of Photometric Methods of Analysis, Khimiya, Leningrad, 1986. Search in Google Scholar
[16] A. Hrdlicka and M. Vrchlabsky: “Complex equilibria of molybdenum (VI) with 2,3-dihydroxynaphtalene”, Mikrochim. Acta, /Wien/, Vol. 2, (1989), pp. 55–59. http://dx.doi.org/10.1007/BF0124451710.1007/BF01244517Search in Google Scholar
[17] M. Bartusek: Scripla Fac. Sci. Nat. UJEP, Brno. Chem., Vol. 13, (1983), p. 107. Search in Google Scholar
[18] M. Bartusek: “Molybdän(VI)— and Wolfram (VI)-Chelate mit Diphenolen”, Collect. Czech. Chem. Commun., Vol. 38, (1973), pp. 2255–2267. Search in Google Scholar
[19] B. Grebenova and M. Vrchlabsky: “Extraktion und Spektrophotometrische molybdänbestimmung im Dreikomponentenkomplex mit brenzeatechin und alkyltriphenylphosphoniumkation”, Collect. Czech. Chem. Commun., Vol. 38, (1973), pp. 379–393. Search in Google Scholar
[20] W. Likussar and D. Boltz: “Theory of Continuous Variations Plots and a New method for Spectrophotometric Determination of Extraction and Formation Constants”, Anal. Chem., Vol. 43, (1971), pp. 1265–1273. http://dx.doi.org/10.1021/ac60304a00610.1021/ac60304a006Search in Google Scholar
[21] V.N. Muzgin, L.B. Hamzina, V.L. Zolotovin and I.Ya. Bezrukov: Analytical Chemistry of Vanadium, Nauka, Moscow, 1981, p. 36. Search in Google Scholar
[22] G. Charlot: Colorimetric Determination of Elements, Amsterdam, Elsevier, 1964, p. 301. Search in Google Scholar
[23] A.G. Fogg, J.L. Kumar and D.T. Burs: “Spectrophotometric determination of molybdenum in steel with thiocyanate and tetraphenylarsonium chloride”, Analyst, Vol. 100, (1975), pp. 311–315. http://dx.doi.org/10.1039/an975000031110.1039/an9750000311Search in Google Scholar
[24] B.F. Quin and R.R. Brooks: “The rapid colorimetric determination of molybdenum with dithiol in biological, geochemical and steel samples”, Anal. Chim. Acta., Vol. 74, (1975), pp. 75–84. http://dx.doi.org/10.1016/S0003-2670(01)82781-110.1016/S0003-2670(01)82781-1Search in Google Scholar
© 2005 Versita Warsaw
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
