J. B. B. Heyns scite author profile

A spectrophotometric investigation of the protonation of HVO(4)(2-) has been conducted at vanadium(V) concentrations low enough (5 x 10(-5) mol dm(-3)) to prevent the formation of polynuclear ions. Equilibrium constants as well as enthalpy and entropy changes for the formation of H(2)VO(4)(-) and VO(2)(+) have been determined in ionic medium: 1.0 mol dm(-3) NaCl and NaClO(4), respectively. The percentage concentration of the neutral species, H(3)VO(4), is so low (apparently <1%) that the protonation of H(2)VO(4)(-) to form VO(2)(+) occurs virtually in a single step. The disproportionately great stability of VO(2)(+) relative to H(3)VO(4) is explained in terms of an increase in the coordination number of vanadium when the cationic species is formed. This explanation is based on a comparison of the thermodynamic quantities of the vanadium(V) species with those of various other oxyacids reported in the literature.

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J. B. B. Heyns

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J. B. B. Heyns

Molybdenum(VI) equilibria in different ionic media. Formation constants and thermodynamic quantities

Molybdenum(VI) equilibria at high perchloric acid concentration

The first observation of γ-octamolybdate: synthesis, crystal and molecular structure of [Me3N(CH2)6NMe3]2[Mo8O26]·2H2O

New spectrophotometric evidence for the existence of HCrO4−

Protonation Equilibria of Mononuclear Vanadate: Thermodynamic Evidence for the Expansion of the Coordination Number in VO2+

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The first observation of γ-octamolybdate: synthesis, crystal and molecular structure of [Me₃N(CH₂)₆NMe₃]₂[Mo₈O₂₆]·2H₂O

Protonation Equilibria of Mononuclear Vanadate: Thermodynamic Evidence for the Expansion of the Coordination Number in VO₂⁺