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高等学校化学研究 ›› 2013, Vol. 29 ›› Issue (4): 771-775.doi: 10.1007/s40242-013-3003-0

• Articles • 上一篇    下一篇

Electroreduction of Tungsten Oxide(VI) in Molten Salts with Added Metaphosphate

MALYSHEV Victor1,2, GAB Angelina1,2, POPESCU Ana-Maria3, CONSTANTIN Virgil3   

  1. 1. Faculty of Chemistry &Technology, National Technical University of Ukraine "Kyiv Polytechnical Institute", Kyiv 05056, Ukraine;
    2. Open International University of Human Development of Ukraine, Kyiv 04071, Ukraine;
    3. Laboratory of Molten Salts, "Ilie Murgulescu" Institute of Physical Chemistry of the Romanian Academy, Bucharest 006021, Roumania
  • 收稿日期:2013-01-05 修回日期:2013-04-18 出版日期:2013-08-01 发布日期:2013-07-15
  • 通讯作者: CONSTANTIN Virgil E-mail:virgilconstantin@yahoo.com

Electroreduction of Tungsten Oxide(VI) in Molten Salts with Added Metaphosphate

MALYSHEV Victor1,2, GAB Angelina1,2, POPESCU Ana-Maria3, CONSTANTIN Virgil3   

  1. 1. Faculty of Chemistry &Technology, National Technical University of Ukraine "Kyiv Polytechnical Institute", Kyiv 05056, Ukraine;
    2. Open International University of Human Development of Ukraine, Kyiv 04071, Ukraine;
    3. Laboratory of Molten Salts, "Ilie Murgulescu" Institute of Physical Chemistry of the Romanian Academy, Bucharest 006021, Roumania
  • Received:2013-01-05 Revised:2013-04-18 Online:2013-08-01 Published:2013-07-15
  • Contact: CONSTANTIN Virgil E-mail:virgilconstantin@yahoo.com

被引次数

1

摘要:

Tungstate ions WO42- are not electrochemically active in chloride melts. Upon introduction of PO3- ions into the melt, two waves appear in the voltammograms at potentials-0.1—-0.2 V and-0.3—-0.5 V vs. Pb/Pb2+ reference electrode. With a PO3- concentration ratio of 0.01<[PO3-]/[WO42-]<0.18, the potentiostatic electrolysis product of WO42-at the above mentioned potentials is metallic tungsten; a NaPO3 concentration increase for ratios[PO3-]/[WO42-]>> 0.18 results in tungsten phosphide in electrolysis product. Cyclic voltammograms and dependence of half-peak potentials on electrode polarization rate indicate the irreversible character of the electrode process. Electrode process modeling allows us to state that the first wave in the voltammogram of KCl-NaCl-Na2WO4-NaPO3 system corresponds to tungsten oxychlorides discharge while the second wave appears due to the discharge of ditungstate ions. In the voltammograms of Na2WO4-NaPO3 melts, reduction wave was observed at-1.1—-1.2 V potentials. Proportionality of limiting current to NaPO3 concentration, constancy of Id/v1/2 ratio, and Id/nFc constant kinetic value equal to (8.3—9.5)×10-5 cm/s for steady-state wave indicate that electrode process rate is limited by electrochemically active particle diffusion to the electrode. Nascent ditungstate ions become electrochemically active in the overall electrode process. Charge transfer stage is reversible.

关键词: Tungsten oxide, Electroreduction, Molten salt, Cyclic voltammetry

Abstract:

Tungstate ions WO42- are not electrochemically active in chloride melts. Upon introduction of PO3- ions into the melt, two waves appear in the voltammograms at potentials-0.1—-0.2 V and-0.3—-0.5 V vs. Pb/Pb2+ reference electrode. With a PO3- concentration ratio of 0.01<[PO3-]/[WO42-]<0.18, the potentiostatic electrolysis product of WO42-at the above mentioned potentials is metallic tungsten; a NaPO3 concentration increase for ratios[PO3-]/[WO42-]>> 0.18 results in tungsten phosphide in electrolysis product. Cyclic voltammograms and dependence of half-peak potentials on electrode polarization rate indicate the irreversible character of the electrode process. Electrode process modeling allows us to state that the first wave in the voltammogram of KCl-NaCl-Na2WO4-NaPO3 system corresponds to tungsten oxychlorides discharge while the second wave appears due to the discharge of ditungstate ions. In the voltammograms of Na2WO4-NaPO3 melts, reduction wave was observed at-1.1—-1.2 V potentials. Proportionality of limiting current to NaPO3 concentration, constancy of Id/v1/2 ratio, and Id/nFc constant kinetic value equal to (8.3—9.5)×10-5 cm/s for steady-state wave indicate that electrode process rate is limited by electrochemically active particle diffusion to the electrode. Nascent ditungstate ions become electrochemically active in the overall electrode process. Charge transfer stage is reversible.

Key words: Tungsten oxide, Electroreduction, Molten salt, Cyclic voltammetry