Determination of the Sodium Ion Transference Number of the Dion−Jacobson-Type Layered Perovskite NaCa2Nb3O10 Using ac Impedance and dc Methods

The electronic conductivity of the Dion−Jacobson-type layered perovskite NaCa2Nb3O10 was determined by employing ac impedance measurements using ion-blocking electrodes, electron-blocking electrodes, and dc Hebb−Wagner polarization measurements using NaCoO2 as the reversible reference electrode. Oxy...

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Bibliographic Details
Published in:Chemistry of materials 2002-03, Vol.14 (3), p.1136-1143
Main Authors: Thangadurai, V, Weppner, W
Format: Article
Language:English
Subjects:
Condensed matter: structure, mechanical and thermal properties
Exact sciences and technology
Physics
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Summary:The electronic conductivity of the Dion−Jacobson-type layered perovskite NaCa2Nb3O10 was determined by employing ac impedance measurements using ion-blocking electrodes, electron-blocking electrodes, and dc Hebb−Wagner polarization measurements using NaCoO2 as the reversible reference electrode. Oxygen partial-pressure-dependent electrical conductivity studies revealed that the conductivity is nearly independent of the oxygen partial pressure in the range from 0.21 to 10-6 atm. Open-circuit voltage measurements of a galvanic cell employing air and 2 ppm of O2 in argon as electrodes revealed that layered perovskites appear not to be oxide ion conductors. The transference number for Na+ ions in NaCa2Nb3O10 at 550 °C is found to be 0.95 at the sodium activity of NaCoO2. The ac measurements using Na-β-alumina with electron-blocking electrodes and Pt-nonblocking electrodes produced similar impedance data at 550 °C suggesting a high ionic nature, which is consistent with the polarization study. However, the ionic and electronic conductivities varied depending on the experimental conditions, such as temperature and partial pressures.
ISSN:0897-4756
1520-5002
DOI:10.1021/cm011189w