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Abstract

Infrared spectra of solutions of M₂[V₂O₂(O₂)₄H₂O] . aq (M = N(CH₃)₄, N(C₄H₉)₄) in heavy water and acetonitrile indicate that in concentrated solutions (c >= 0.5 mol dm^-3) the asymmetric structure of the [V₂O₂(O₂)₄H₂O]^2- anion remains preserved for some time. Electronic spectra suggest that in more dilute solutions (c = 10^-3-10^-4 mol dm^-3) of the M₂[V₂O₂(O₂)₄H₂O] . aq complexes in water and acetonitrile the dinuclear ion decomposes faster to [VO(O₂)₂H₂O]^-, followed by a relatively slow liberation of the peroxidic oxygen and formation of vanadate ions. The dinuclear complex is more stable in dilute chloroform solutions. The ⁵¹V NMR spectrum of an aqueous solution of [N(CH₃)₄]₂[V₂O₂(O₂)₄H₂O] (c = 1.3 mol dm^-3) taken after a partial decomposition suggests the simultaneous presence of [V₂O₂(O₂)₄H₂O]^2-, [VO(O₂)₂H₂O]^-, (V_nO_3n)^n- (n = 4, 5, 6), [H_mV₁₀O₂₈]^(6-m)-, and other unidentified species.

Keywords: Asymmetric tetraperoxodivanadate; Solution stability; IR spectroscopy; Electron spectroscopy.