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Pure Appl. Chem., 1971, Vol. 25, No. 2, pp. 395-428

Diagrammes d'équilibre potentiel-acidité (pO2-) dans les sels et hydroxydes alcalins fondus

B. Trémillon

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  • Mendoza-Mendoza Esmeralda, Padmasree Karinjilottu P., Montemayor Sagrario M., Fuentes Antonio F.: Molten salts synthesis and electrical properties of Sr- and/or Mg-doped perovskite-type LaAlO3 powders. J Mater Sci 2012, 47, 6076. <>
  • Mugavero Samuel J., Gemmill William R., Roof Irina P., zur Loye Hans-Conrad: Materials discovery by crystal growth: Lanthanide metal containing oxides of the platinum group metals (Ru, Os, Ir, Rh, Pd, Pt) from molten alkali metal hydroxides. J Solid State Chem 2009, 182, 1950. <>
  • Cox A., Fray Derek J.: Mechanistic investigation into the electrolytic formation of iron from iron(III) oxide in molten sodium hydroxide. J Appl Electrochem 2008, 38, 1401. <>
  • Caravaca Concha, Laplace Annabelle, Vermeulen Jackie, Lacquement Jérôme: Determination of the E-pO2− stability diagram of plutonium in the molten LiCl–KCl eutectic at 450°C. J  Nucl Mater 2008, 377, 340. <>
  • Lambertin David, Ched’homme Séverine, Bourgès Gilles, Sanchez Sylvie, Picard Gérard: Plutonium chemical properties in NaCl–KCl and CaCl2 at 1073K. J  Nucl Mater 2005, 341, 124. <>
  • Córdoba G., Caravaca C., Quiñones J.: Determination of a stability potential-pO2- diagram of samarium in the eutectic LiCl-KCl. Mat Res Symp Proc 2004, 824, CC8.50. <>
  • Castrillejo Y., Bermejo M.R., Pardo R., Martı́nez A.M.: Use of electrochemical techniques for the study of solubilization processes of cerium–oxide compounds and recovery of the metal from molten chlorides. Journal of Electroanalytical Chemistry 2002, 522, 124. <>
  • Martı́nez A.M, Castrillejo Y, Barrado E, Haarberg G.M, Picard G: A chemical and electrochemical study of titanium ions in the molten equimolar CaCl2+NaCl mixture at 550°C. Journal of Electroanalytical Chemistry 1998, 449, 67. <>
  • Lee Jeonghee, Holland Gary F.: Identification of a new strontium Ni(III) oxide prepared in molten hydroxides. J Solid State Chem 1991, 93, 267. <>
  • Combes R., Cadi M., Gindre B.: Oxoacidity and its influence on electrochemical properties of molten tin(II) chloride. Electrochimica Acta 1980, 25, 867. <>
  • Combest R., Levelut M.N., Tremillon B.: Oxo-acidity and its influence on the electrochemical properties in molten mixtures of CeCl3 and equimolar NaClKCl, at 1000 K. Electrochimica Acta 1978, 23, 1291. <>
  • Combes Richard, Levelut Marie-No��lle, Tr��millon Bernard: Conditional solubility versus pO2��� of cerium(III) oxide in molten equimolar NaCl+KCl at 727��C. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 1978, 91, 125. <>
  • Lysy R., Combes R., Combes R., Tremillon B., Andrade F. De, Hor��nyi G., Rizmayer E.M.: Oxoacidobasic properties of water in the molten LiCl���KCl eutectic. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 1977, 83, 287. <>
  • Trémillon Bernard, Picard Gérard: Relation entre oxoacidité(échanges de o2-) et aciditédans des sels fondus. applicationàla solubilisation des oxydes métalliques. Analytica Chimica Acta 1976, 82, 273. <>
  • Sidheswaran P., Lal Hira, Soffer A., Comtat M., Loubet G., Mahenc J.: Pre-exponential factor and mechanism of anodic oxidation of chemisorbed methanol and formaldehyde on platinum. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 1972, 40, 143. <>
  • Reeves R.M., Bauer Denise, Beck Jean-Paul: Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 1972, 40, 454. <>