Collect. Czech. Chem. Commun. 1994, 59, 126-137
https://doi.org/10.1135/cccc19940126

A Study of the Use of Solubility Isotherms to Obtain Information about Ion Hydration and Ion Pairing in Concentrated Solutions of Electrolytes

Jitka Eysseltová

Department of Inorganic Chemistry, Charles University, 128 40 Prague 2, Czech Republic

Individual author index pages


Other CCCC articles of these authors

  • Jitka Eysseltová
    Ionic Processes in Saturated Solutions of MgCl2·6H2O in Solutions of Other Divalent Metals
    2001, Vol. 66, Issue 1, pp. 89–98 [Abstract]
  • Jitka Eysseltová*, Vladimír Zbranek and Jan Jirsák
    Solubility in the CuCl2-NaCl-H2O System and Hydration Analysis in the Case of Complexation
    1999, Vol. 64, Issue 8, pp. 1262–1268 [Abstract]
  • Jitka Eysseltová
    Hydration Analysis Based Calculation of Solute Activity Coefficients in Ternary Saturated Solutions
    1994, Vol. 59, Issue 11, pp. 2351–2356 [Abstract]
  • Jaroslav Nývlt and Jitka Eysseltová
    Physical Interpretation of Solubility Interaction Constants from the Series Expansion of the Relative Activity Coefficients
    1994, Vol. 59, Issue 9, pp. 1911–1921 [Abstract]
  • Jitka Eysseltová and Jana Dosoudilová
    Solubility in the Glycine-H3BO3-H2O System
    1994, Vol. 59, Issue 6, pp. 1337–1341 [Abstract]
  • Jitka Eysseltová, Martin Mohyla and Marie Tomášková
    Glycine Sulfates and Selenates
    1993, Vol. 58, Issue 8, pp. 1891–1897 [Abstract]
  • Miroslav Ebert, Ivan Lukeš, Jitka Eysseltová, Jindřich Nassler and Zdeněk Mička
    Solubility in the KH2PO4-K2HPO4-K2H2P2O7-K3HP2O7-H2O system at 0 °C
    1984, Vol. 49, Issue 1, pp. 25–28 [Abstract]
  • Miroslav Ebert, Ivan Lukeš, Jitka Eysseltová and Jindřich Nassler
    Solubility in the K2H2P2O7-K3HP2O7-K3H2P3O10-K4HP3O10-H2O system at 0 °C
    1983, Vol. 48, Issue 6, pp. 1676–1679 [Abstract]
  • Miroslav Ebert, Jitka Eysseltová, Ivan Lukeš and Jindřich Nassler
    Pseudo-ternary sections in K2H2P2O7-K3HP2O7-K3H2P3O10-K4HP3O10-H2O system
    1981, Vol. 46, Issue 11, pp. 2633–2639 [Abstract]