期刊
INORGANIC CHEMISTRY
卷 61, 期 13, 页码 5413-5424出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.inorgchem.2c00402
关键词
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资金
- National Science Foundation of China [21850410458, 22090043, 21622101]
- Guangxi Natural Science Foundation [2019GXNSFGA245006]
This study thoroughly analyzed the crystal structure, electrical conduction properties, and ionic migration mechanism of the La1-xSr2+x(GaO4)O1-0.5x system, laying the foundation for a better understanding of the mixed p electronic/oxide ion-conducting behavior of the system.
The La2O3/SrO/Ga2O3ternary system contains severalcompounds with remarkable oxide or proton ionic conduction. Among them,the layered LaSr2(GaO4)O compound is a less commonly studied material.Here, the crystal structure, electrical conduction properties, and ionic migrationmechanism of the La1-xSr2+x(GaO4)O1-0.5x(0 <= x <= 0.3) system arethoroughly analyzed. Diffraction methods indicate that the system crystallizes inthe tetragonal space groupP4/ncc, which is compatible with the presence of asubtle GaO4tetrahedral tilting along thecaxis, leading to a slight deviation ofthe body-centered tetragonal structure previously reported. This feature isessential to further understanding the mixed p electronic/oxide ion-conductingbehavior of the system. Upon La3+for Sr2+substitution, oxygen vacancies ariseat the loosely bound oxide sublattice, which at high temperature go through theGaO4tetrahedral layer, leading to the formation of intermediate corner-sharingGa2O7tetrahedral dimers, and migrate via the continuous breaking and re-formation of the dimers, assisted by the synergic rotationand deformation of neighboring GaO4tetrahedra. The unique structural and electrical features of La1-xSr2+x(GaO4)O1-0.5xmaterialswithin the La2O3/SrO/Ga2O3ternary system emphasize their potential application as cathode materials in LaGaO3-based fuel cells
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