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Isotopic Exchange and Oxygen Diffusion in the La0.88Sr0.12Ga0.82Mg0.18O3 – α–Molecular Oxygen System

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Abstract

The oxygen isotopic exchange kinetics in La0.88Sr0.12Ga0.82Mg0.18O3 – αand in the same electrolyte whose surface layer is enriched with cobalt ions is studied. Rates of different types of exchange and oxygen isotope diffusion coefficients in oxide are determined at 970–1200 K and oxygen pressures of 400–1200 Pa. The activation energy for the interphase oxygen exchange and the order of heteroexchange vs. oxygen pressure relationship are determined. The presence of cobalt ions in the near-surface layer alters the surface exchange parameters, such as the oxygen heteroexchange rate (which increases), order of the heteroexchange vs. oxygen pressure relationship, and the ratio between rates of different exchange types. The oxygen isotope diffusion coefficients coincide in both electrolytes but differ from those calculated from the electroconductivity data with the Nernst–Einstein equation.

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Authors and Affiliations

  1. Institute of High-Temperature Electrochemistry, Ural Division, Russian Academy of Sciences, ul. S. Kovalevskoi 20, Yekaterinburg, 620219, Russia

    G. K. Vdovin, E. Kh. Kurumchin, E. V. Isaeva & D. I. Bronin

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  1. G. K. Vdovin
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  2. E. Kh. Kurumchin
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  3. E. V. Isaeva
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  4. D. I. Bronin
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Vdovin, G.K., Kurumchin, E.K., Isaeva, E.V. et al. Isotopic Exchange and Oxygen Diffusion in the La0.88Sr0.12Ga0.82Mg0.18O3 – α–Molecular Oxygen System. Russian Journal of Electrochemistry 37, 304–307 (2001). https://doi.org/10.1023/A:1009085532471

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