In chemistry, a vanadate is a compound containing an oxoanion of vanadium generally in its highest oxidation state of +5. The simplest vanadate ion is the tetrahedral, orthovanadate, VO3−
4 anion, which is present in e.g. sodium orthovanadate and in solutions of V₂O₅ in strong base (pH > 13 ^[1]). Conventionally this ion is represented with a single double bond, however this is a resonance form as the ion is a regular tetrahedron with four equivalent oxygen atoms.

Additionally a range of polyoxovanadate ions exist which include discrete ions and "infinite" polymeric ions.^[2] There are also vanadates, such as rhodium vanadate, RhVO₄, which has a statistical rutile structure where the Rh³⁺ and V⁵⁺ ions randomly occupy the Ti⁴⁺ positions in the rutile lattice,^[3] that do not contain a lattice of cations and balancing vanadate anions but are mixed oxides.

In chemical nomenclature when vanadate forms part of the name, it indicates that the compound contains an anion with a central vanadium atom, e.g. ammonium hexafluorovanadate is a common name for the compound (NH₄)₃VF₆ with the IUPAC name of ammonium hexafluoridovanadate(III).

Examples of vanadate ions

Some examples of discrete ions are

• VO3−
  4 "orthovanadate", tetrahedral.^[2]
• V
  2O4−
  7 "pyrovanadate", corner-shared VO₄ tetrahedra, similar to the dichromate ion^[2]
• V
  3O3−
  9, cyclic with corner-shared VO₄ tetrahedra^[4]
• V
  4O4−
  12, cyclic with corner-shared VO₄ tetrahedra^[5]
• V
  5O3−
  14, corner shared VO₄ tetrahedra^[6]
• V
  10O6−
  28 "decavanadate", edge- and corner-shared VO₆ octahedra^[2]
• V
  12O4−
  32^[2]
• V
  13O3−
  34, fused VO₆ octahedra ^[7]
• V
  18O12−
  42^[8]

Some examples of polymeric “infinite” ions are

• [VO₃]n−
  n in e.g. NaVO₃, sodium metavanadate^[2]
• [V₃O₈]n−
  n in CaV₆O₁₆^[9]

In these ions vanadium exhibits tetrahedral, square pyramidal and octahedral coordination. In this respect vanadium shows similarities to tungstate and molybdate, chromium however has a more limited range of ions.

Aqueous solutions

Dissolution of vanadium pentoxide in strongly basic aqueous solution gives the colourless VO3−
4 ion. On acidification, this solution's colour gradually darkens through orange to red at around pH 7. Brown hydrated V₂O₅ precipitates around pH 2, redissolving to form a light yellow solution containing the [VO₂(H₂O)₄]⁺ ion. The number and identity of the oxyanions that exist between pH 13 and 2 depend on pH as well as concentration. For example, protonation of vanadate initiates a series of condensations to produce polyoxovanadate ions:^[2]

• pH 9–12; HVO2−
  4, V
  2O4−
  7
• pH 4–9; H
  2VO−
  4, V
  4O4−
  12, HV
  10O5−
  28
• pH 2–4; H₃VO₄, H
  2V
  10O4−
  28

Pharmacological properties

Vanadate is a potent inhibitor of certain plasma membrane ATPases, such as Na⁺/K⁺-ATPase and Ca²⁺-ATPase (PMCA). However, it does not inhibit other ATPases, such as SERCA (sarco/endoplasmic reticulum Ca²⁺-ATPase), actomyosin ATPase and mitochondrial ATPase.^[10][11] Aureliano, Manuel; Crans, Debbie C. (2009). "Decavanadate and oxovanadates: Oxometalates with many biological activities". Journal Inorganic Biochemistry 103: 536–546. doi:10.1016/j.jinorgbio.2008.11010.

References