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In this study, symmetrical films of BaFeO₂.₆₇, BaFeO₂.₃₃F₀.₃₃ and BaFeO₂F were synthesized and the oxygen uptake and conduction was investigated by high temperature impedance spectroscopy under an oxygen atmosphere. The data were analyzed on the basis of an impedance model designed for highly porous mixed ionic electronic conducting (MIEC) electrodes. Variable temperature X-ray diffraction experiments were utilized to estimate the stability window of the oxyfluoride compounds, which yielded a degradation temperature for BaFeO₂.₃₃F₀.₃₃ of 590 °C and a decomposition temperature for BaFeO₂F of 710 °C. The impedance study revealed a significant change of the catalytic behavior in dependency of the fluorine content. BaFeO₂.₆₇ revealed a bulk-diffusion limited process, while BaFeO₂.₃₃F₀.₃₃ appeared to exhibit a fast bulk diffusion and a utilization region δ larger than the electrode thickness L (8 μm). In contrast, BaFeO₂F showed very area specific resistances due to the lack of oxygen vacancies. The activation energy for the uptake and conduction process of oxygen was found to be 0.07/0.29 eV (temperature range-dependent), 0.33 eV and 0.67 eV for BaFeO₂.₆₇, BaFeO₂.₃₃F₀.₃₃ and BaFeO₂F, respectively.

This article belongs to the Section Energy Materials