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Tytuł artykułu

Strontium Isopoly Tung states: Synthesis and Properties

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
By single-point pH-metric titration method we investigated the interactions in the system of Na2WO4 - HNO3 - KNO3 - H2O in the conditions that are close to equilibrium. We also showed by mathematical modeling of the processes (Newton's method, CLINP 2.1 software) that interconvertion between particular isopoly tungstate anions (ITA) takes place and this leads to the decrease in concentration of hexatungstate W6O20(OH)2 6- and hydroheptatungstate HW7O24 5- anions with simultaneous increase of quantity of paratungstate B HxW12O40(OH)2 (10-x) - and metatungstate W12O38(OH)2 6- anions in the system. The results of the modeling were proven by the successful synthesis of strontium salts with ITA. From non-equilibrium solution with different acidity Z = n(H+) / n(WO42-) we isolated strontium paratungstate B Sr5[W12O40(OH)2]ź27H2O (Z = 1.14-1.17) and strontium hydroheptatungstate Sr5[HW7O24]2ź30H2O (Z = 1.29). From the equilibrium solution the only strontium paratungstate B Sr5[W12O40(OH)2]ź27H2O (Z = 1.17-1.33) precipitates. All the salts synthesized were characterized by elemental analysis, FTIR spectroscopy, X-ray diffraction, and DTA.
Rocznik
Strony
2067--2080
Opis fizyczny
Bibliogr. 20 poz., rys.
Twórcy
autor
  • Department of Inorganic Chemistry, Donetsk National University, Universitetskaya str., 24, Donetsk 83055, Ukraine, rozantsev@dongu.donetsk.ua
Bibliografia
  • l. Basiev T.T., Phys. Solid State, 47, 1400 (2005).
  • 2. Arora S.K. and Chudasama B., Cryst. Res. Technol., 41, 1089 (2006).
  • 3. Pope M.T., Heteropoly and Isopoly Oxometallates, Springer-Verlag, Berlin (1983).
  • 4. Tokunov O.I., Kravets L.P., Kisljakov I.P. and Petrov K.I., Izv. Vuzov Khim. Khim. Tekhn., 11, 1311 (1968).
  • 5. Mokhosoev M.V. and ShevtsovaN.A., The State of Molybdenum and Tungsten lons in Aqueous Solutions, Ulan-Ude, BF SO AN SSSR, 1977, pp. 142-145 (in Russian).
  • 6. Mokhosoev M.V., Chemistry of Rare Elements, Voi. l, Molybdates and Tungstates. Donetsk, 1971, p. 33 (in Russian).
  • 7. Burtseva K.G., Kotchubei L.A., Voropanova L.A. and Gorbatkova B.Kh., Zh Neorg. Khim., 26, 2121(1981).
  • 8. Sharlo G., Methods in Analytical Chemistry. Quantitative Analysis of Inorganic Compounds, Leningrad, Khimya, 1965, pp. 597-602 (in Russian).
  • 9. Korostelev P.P., Preparation of Solutions for Chemical-Analytical Studies, Moscow, Nauka, 1964, pp. 227-230 (in Russian).
  • 10. Shwartsenbakh G. and Flashka G., Complexonometric Titration, Moscow, Khimya, 1970, pp. 180-181(in Russian).
  • 11. Busev A.I., Ivanov V.M. and Sokolova T.A., Analytical Chemistry of Tungsten, Moscow, Nauka, 1976 (in Russian).
  • 12. Maksimovskaya R.I. and Burtseva K.G., Polyhedron, 4, 1559 (1985).
  • 13. Cruywagen J.J. and Merve F.I. van der, J. Chem. Soc. Dalton Trans., 1701 (1987).
  • 14. Rozantsev G.M., Lysenko O.N. and Belousova E.E., Zh. Neorg. Khim., 45, 1761 (2000).
  • 15. Rozantsev G.M., Radio S.V. and Belousova E.E., Vopr. Khim. Khim. Tekhn., No. 5, 32 (2005).
  • 16. Nolan A.L., Wilkes E.N., Hambley T. W., Allen C.C., Burns R.C. and Lawrance G. A., Aust. J. Chem., 52,955 (1999).
  • 17. Żak Z., Perutka J., Havel J., Cisarova I. and Giester G., J. Alloys Compounds, 281, 169 (1998).
  • 18. Kabanov V.Ya. and Spitsyn V.I., Dokl.. Akad. NaukSSSR, 148, 109 (1963).
  • 19. Kholin Yu.V., Quantitative Physical Chemical Analysis of Complexation in Solutions and on the Surface of Chemically Modified Silica: Thoughtful Models, Mathematical Methods and Its Applications, Kharkov, 2000 (in Russian).
  • 20. X-Ray PDF No. 8-490, No. 20-1324 JCPDS, Philadelphia 1964-1989.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUJ6-0025-0004
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