ISSN:
1572-8943
Keywords:
coulometry
;
electrical conductivity
;
mixed oxides
;
oxygen stoichiometry
;
p-T-x diagram
;
solid electrolyte
Source:
Springer Online Journal Archives 1860-2000
Topics:
Chemistry and Pharmacology
Notes:
Abstract The oxidation-reduction behaviour of transition metal and rare earth oxide systems in oxygen potential controlled atmospheres was investigated by means of a solid electrolyte-based coulometric technique (SEC) in carrier gas mode to obtain information concerning the extent of oxygen stoichiometry, thep-T-x diagram of any mixed oxide phase, the kinetics of the oxygen exchange and the phase transitions. The direct coupling of SEC and electrical conductivity measurements provides further information about the relationship between oxygen deficiency and conductivity, especially as concerns the oxygen mobility and the transition from ionic to mixed ionic/electronic conductivity in any system. In the fluorite-type phases PrO2−x, Ce0.8Pr0.2Oy−x and Ce0.8Sr0.08Pr0.12Oy−x, the higher oxidation state of Pr is stabilized and the electrical conductivity increases in this sequence. The perovskite-type phase Sr1−yCeyFeO3−x, shows transitions and a second phase reflected in the temperature-programmed spectrum of this substance. The electrical conductivity of Sr0.9Ce0.1FeO3−x changes fromn-type top-type with increasing oxygen pressure.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF01983677
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