Localization of Oxygen Interstitials in CeSrGa3O7+δ Melilite

Localization of Oxygen Interstitials in CeSrGa3O7+δ Melilite

The solubility of Ce in the La1–x Ce x SrGa3O7+δ and La1.54–x Ce x Sr0.46Ga3O7.27+δ melilites was investigated, along with the thermal redox stability in air of these melilites and the conductivity variation associated with oxidization of Ce3+ into Ce4+. Under CO reducing atmosphere, the La in LaSrG...

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Bibliographic Details
Published in:Inorganic chemistry Vol. 53; no. 21; pp. 11589 - 11597
Main Authors: Xu, Jungu, Kuang, Xiaojun, Véron, Emmanuel, Allix, Mathieu, Suchomel, Matthew R, Porcher, Florence, Liang, Chaolun, Pan, Fengjuan, Wu, Mingmei
Format: Journal Article
Language:English
Published: American Chemical Society 03-11-2014
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Summary:The solubility of Ce in the La1–x Ce x SrGa3O7+δ and La1.54–x Ce x Sr0.46Ga3O7.27+δ melilites was investigated, along with the thermal redox stability in air of these melilites and the conductivity variation associated with oxidization of Ce3+ into Ce4+. Under CO reducing atmosphere, the La in LaSrGa3O7 may be completely substituted by Ce to form the La1–x Ce x SrGa3O7+δ solid solution, which is stable in air to ∼600 °C when x ≥ 0.6. On the other side, the La1.54–x Ce x Sr0.46Ga3O7.27+δ compositions displayed much lower Ce solubility (x ≤ 0.1), irrespective of the synthesis atmosphere. In the as-made La1–x Ce x SrGa3O7+δ, the conductivity increased with the cerium content, due to the enhanced electronic conduction arising from the 4f electrons in Ce3+ cations. At 600 °C, CeSrGa3O7+δ showed a conductivity of ∼10–4 S/cm in air, nearly 4 orders of magnitude higher than that of LaSrGa3O7. The oxidation of Ce3+ into Ce4+ in CeSrGa3O7+δ slightly reduced the conductivity, and the oxygen excess did not result in apparent increase of oxide ion conduction in CeSrGa3O7+δ. The Ce doping in air also reduced the interstitial oxide ion conductivity of La1.54Sr0.46Ga3O7.27. Neutron powder diffraction study on CeSrGa3O7.39 composition revealed that the extra oxygen is incorporated in the four-linked GaO4 polyhedral environment, leading to distorted GaO5 trigonal bipyramid. The stabilization and low mobility of interstitial oxygen atoms in CeSrGa3O7+δ, in contrast with those in La1+x Sr1–x Ga3O7+0.5x , may be correlated with the cationic size contraction from the oxidation of Ce3+ to Ce4+. These results provide a new comprehensive understanding of the accommodation and conduction mechanism of the oxygen interstitials in the melilite structure.
ISSN:0020-1669
1520-510X
DOI:10.1021/ic501662p