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Volumn 21, Issue 46, 2011, Pages 18592-18596
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In situ determination of the nickel oxidation state in La 2NiO4+δ and La4Ni3O 10-δ using X-ray absorption near-edge structure
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Author keywords
[No Author keywords available]
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Indexed keywords
CATHODE MATERIALS;
CHARGE COMPENSATION MECHANISM;
DEFECT CHEMISTRY;
EDGE POSITION;
ELECTRONIC AND IONIC CONDUCTIVITY;
IN-SITU;
KEY PROCESS;
LONG TERM PERFORMANCE;
MATERIALS DEGRADATION;
MOBILE SPECIES;
MODELLING STUDIES;
NI VALENCE;
NICKEL OXIDATION;
OXIDATION STATE;
OXYGEN NON-STOICHIOMETRY;
OXYGEN REDUCTION;
ROOM TEMPERATURE;
RUDDLESDEN-POPPER PHASIS;
SOLID OXIDE;
STATIC AIR;
TRANSITION METAL CATIONS;
X-RAY ABSORPTION NEAR-EDGE STRUCTURE;
XANES;
CATHODES;
DEGRADATION;
ELECTROLYTIC REDUCTION;
ELECTROMAGNETIC WAVE ABSORPTION;
IONIC CONDUCTION IN SOLIDS;
IONIC CONDUCTIVITY;
OXYGEN;
POSITIVE IONS;
STOICHIOMETRY;
STRONTIUM COMPOUNDS;
TRANSITION METALS;
X RAY ABSORPTION SPECTROSCOPY;
OXIDATION;
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EID: 81255123475
PISSN: 09599428
EISSN: 13645501
Source Type: Journal
DOI: 10.1039/c1jm14320d Document Type: Article |
Times cited : (68)
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References (38)
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