Speciation of tungsten in alkali chloride melts (based on NaCl-2CsCl, NaCl-KCl and 3LiCl-2KCl mixtures) was studied between 550 and 750 ◦ C using electronic absorption spectroscopy. OnlyW(IV) and W(V) chloro and oxychloro species can be stabilized under the conditions studied. Tungsten(IV) chloride ions are very sensitive to oxide/hydroxide impurities present in the melt. Anodic dissolution ofWmetal at anodic current densities in the range of 0.005 - 0.1 A/cm 2 produces only [WCl 6 ] 2− ions that can be electrochemically (on a glassy carbon anode) oxidized to [WCl 6 ] − . Small amounts of oxide ions present in the melt result in a gradual conversion of W(IV) chloro species intoW(IV) oxychloro species. In the presence of O 2 in the atmosphere [WCl 6 ] 2− is oxidized into the tungsten(V) species [WOCl 5 ] 2− . Dissolution of tungsten hexachloride, WCl 6 , in an NaCl-2CsCl melt initially yields [WCl 6 ] 2− (due to disproportionation). Reaction of metallic tungsten with Pd(II)-containing melts results in the formation of [WCl 6 ] 2− species. The main spectroscopic parameters of [WCl 6 ] 2− and [WCl 6 ] − complex ions were calculated.
Vladimir A. Volkovich, Д. А. Данилов, Ilya B. Polovov, Boris D. Vasin, Trevor R. Griffiths, Denis E. Aleksandrov, O. A. Tropin, Dmitrii V. V. Tsarevskii
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