Abstract
The effects of partial substitutions of Bi by La, Gd, and Y on the structure, thermal expansion and transport properties of modulated fluorite-type Bi5NbO10 were investigated using X-ray thermodiffraction, alternative current impedance spectroscopy and the Wagner polarization method. Through conventional solid-state syntheses, the solid solutions Bi5−xLnxNbO10 exist up to about x ∼ 0.25 for La, and to x ∼ 0.5 for Gd and Y. A doubling of their thermal expansion coefficient is observed above 540 °C. The type-II incommensurate modulation of these phases is correlated to the nature and amount of substitute, and disappears above 800 °C. Except for Bi5NbO10, which appears to be a pure ionic conductor, most of the solid solutions exhibit mixed conductivity with predominant ionic transport. Partial Gd and Y substitutions favor electron conductivity in the low temperature range, probably due to bismuth partial oxidation.
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