A. O. Gübeli scite author profile

A mathematical treatment of solubility curves of sulfides is introduced for the determination of formation constants of complexes in solution. As an example, this theoretical method is used in the determination of the species in equilibrium in solution with a precipitate of zinc sulfide (β-ZnS). The excess of sulfide in solution varies from 0.0004 M to 0.01 M. The presence of Zn2+ is noted in acidic solution, followed by the presence of ZnS.H2O or Zn(HS)(OH) for the rest of the pH scale. The solubility product of ZnS and the formation constant of Zn(HS)(OH) are given for an ionic strength 1.0 (NaClO4) at 25 °C.

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The complexing characteristics of insoluble selenides Pt. 3. Mercuric selenide

Mehra

Gübeli

1971

Journal of the Less Common Metals

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Stabilité des complexes hydroxo et produits de solubilité des hydroxydes de métaux. I. Argent et zinc

Gübeli¹,

Ste-Marie²

1967

Can. J. Chem.

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Recu le 25 aoClt 1966On a procCdC A une dCtermination des complexes hydroxo d'argent et de zinc A partir des courbes de solubilitC des hydroxydes en fonction du pH, A 25 "C et force ionique unitaire (NaC104). On a calcul6 les produits de solubilit6 des hydroxydes et les constantes de formation des espkces AgOH, Ag(0H)z-, ZnOH+, Zn(OH)z, Zn(0H)r-et Zn(OH)42-.The hydroxo-complexes of silver and zinc are determined from a plot of their hydroxide solubility curves vs. pH, a t 25 OC and unit ionic strength (NaC104). The hydroxide solubility products and the formation constants of AgOH, Ag(0H)z-, ZnOHf, Zn(OH)z, Zn(OH)a-, and Zn(OH)42-are calculated.

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The complexing characteristics of insoluble selenides. 1. Silver selenide

Mehra¹,

Gübeli²

1970

Can. J. Chem.

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The aqueous solubility of the system silver selenide has been investigated in an inert atmosphere of nitrogen at a unit molar ionic strength and constant temperature of 25° C. The experimental evidence indicates the formation of two aqueous species [Ag2(HSe)(OH)], and [Ag(Se)2(OH)]4− in contact with the precipitated selenide in different regions of acidity. The former exists in acidic medium and has a pβ value of 48.49 ± 0.10 while the latter is stable only in alkaline conditions and has a pβ value of 24.07 ± 0.19. A mathematical treatment has been elaborated to identify and calculate the stability constants of such selenide complexes formed through a heterogeneous equilibrium.

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A. O. Gübeli

The Stability of Thiocomplexes and Solubility Products of Metal Sulphides: I. Cadmium Sulphide

Constantes de stabilité de thiocomplexes et produits de solubilité de sulfures de métaux. II Sulfure de zinc

The complexing characteristics of insoluble selenides Pt. 3. Mercuric selenide

Stabilité des complexes hydroxo et produits de solubilité des hydroxydes de métaux. I. Argent et zinc

The complexing characteristics of insoluble selenides. 1. Silver selenide

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