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Effect of composition on character of defect formation and ion transport in (1–x)[Ca1–y Yb 2+y ]Yb 3+2 S4–δxYb2S3 phases

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Abstract

Structural features of solid solutions based on CaYb2S4 (the Yb3S4 structural type) are studied using the methods of Rietveld full-profile analysis, measurement of pycnometric density, and thermal analysis in vacuum with simultaneous study of variation of the elementary cell parameters. Conductivity of samples with different doping additive content are studied in the medium of argon and in the hydrogen sulfidecontaining medium using the impedance technique. Different mechanisms of defect formation are analyzed as dependent on the doping degree.

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Authors and Affiliations

  1. Vyatka State University, Institute of Chemistry and Ecology, Kirov, 610000, Russia

    B. A. Ananchenko, A. O. Myakishev, L. A. Kalinina & E. V. Kosheleva

  2. St. Petersburg State University, Institute of Chemistry, St. Petersburg, Russia

    I. V. Murin

Authors
  1. B. A. Ananchenko
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  2. A. O. Myakishev
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  3. L. A. Kalinina
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  4. E. V. Kosheleva
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  5. I. V. Murin
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Corresponding author

Correspondence to B. A. Ananchenko.

Additional information

Published on the basis of a report delivered at the 13th International Meeting “Fundamental Problems of Solid State Ionics,” Chernogolovka, 2016.

Original Russian Text © B.A. Ananchenko, A.O. Myakishev, L.A. Kalinina, E.V. Kosheleva, I.V. Murin, 2017, published in Elektrokhimiya, 2017, Vol. 53, No. 8, pp. 899–907.

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Ananchenko, B.A., Myakishev, A.O., Kalinina, L.A. et al. Effect of composition on character of defect formation and ion transport in (1–x)[Ca1–y Yb 2+y ]Yb 3+2 S4–δxYb2S3 phases. Russ J Electrochem 53, 799–807 (2017). https://doi.org/10.1134/S102319351708002X

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  • DOI: https://doi.org/10.1134/S102319351708002X

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