Sodium decavanadate

Sodium decavanadate describes any member of the family of inorganic compounds with the formula Na6(H2O)n. These are sodium salts of the orange-colored decavanadate anion 6−. Numerous other decavanadate salts have been isolated and studied since 1956 when it was first characterized. Sodium decavanadate describes any member of the family of inorganic compounds with the formula Na6(H2O)n. These are sodium salts of the orange-colored decavanadate anion 6−. Numerous other decavanadate salts have been isolated and studied since 1956 when it was first characterized. The preparation of decavanadate is achieved by acidifying an aqueous solution of ortho-vanadate: The formation of decavanadate is optimized by maintaining a pH range of 4–7. Typical side products include metavanadate, −, and hexavanadate, 2−, ions. The decavanadate ion consists of 10 fused VO6 octahedra and has D2h symmetry. The structure of Na6·18H2O has been confirmed with X-ray crystallography. The decavanadate anions contains three sets of equivalent V atoms (see fig. 1). These include two central VO6 octahedra (Vc) and four each peripheral tetragonal-pyramidal VO5 groups (Va and Vb). There are seven unique groups of oxygen atoms (labeled A through G). Two of these (A) bridge to six V centers, four (B) bridge three V centers, fourteen of these (C, D and E) span edges between pairs of V centers, and eight (F and G) are peripheral. The oxidation state of vanadium in decavanadate is +5. Aqueous vanadate (V) compounds undergo various self-condensation reactions. Depending on pH, major vanadate anions in solution include VO2(H2O)42+, VO43−, V2O73−, V3O93−, V4O124−, and V10O266−. The anions often reversibly protonate. Decavanadate forms according to this equilibrium: The structure of the various protonation states of the decavanadate ion has been examined by 51V NMR spectroscopy. Each species gives three signals; with slightly varying chemical shifts around −425, −506, and −523 ppm relative to vanadium oxytrichloride; suggesting that rapid proton exchange occurs resulting in equally symmetric species. The three protonations of decavanadate have been shown to occur at the bridging oxygen centers, indicated as B and C in figure 1. Decavanadate is most stable in pH 4–7 region. Solutions of vanadate turn bright orange at pH 6.5, indicating the presence of decavanadate. Other vanadates are colorless. Below pH 2.0, brown V2O5 precipitates as the hydrate.