Electrochemical Li-ion storage in defect spinel iron oxides: The critical role of cation vacancies

Energy and Environmental Science

Volumn 4, Issue 4, 2011, Pages 1495-1502

  Hahn, Benjamin P ^a   Long, Jeffrey W ^a   Mansour, Azzam N ^b   Pettigrew, Katherine A ^a,c   Osofsky, Michael S ^a   Rolison, Debra R ^a  

^a NAVAL RESEARCH LABORATORY   (United States)

^b NAVAL SURFACE WARFARE CENTER   (United States)

^c NOVA RESEARCH INC   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

AQUEOUS MEDIA; CATHODE MATERIALS; CATION VACANCIES; CONSUMER ELECTRONIC DEVICES; COST ADVANTAGES; INSERTION POTENTIAL; INTERCALATION HOSTS; ION STORAGE; IRON-BASED; LI-ION INSERTION; LITHIUM-ION BATTERY; METAL COMPOSITION; NANOCRYSTALLINE SPINELS; POSITIVE ELECTRODE MATERIALS; POSITIVE POTENTIAL; POWER SOURCES; REDOX COUPLE; RESEARCH EFFORTS; SCALE-UP; SPINEL FERRITES; SUBSTITUTED FERRITES;

CATHODES; DEFECTS; FERRITE; FERRITES; GYRATORS; IRON; LITHIUM; LITHIUM BATTERIES; LITHIUM COMPOUNDS; MANGANESE; MOLYBDENUM; MOLYBDENUM OXIDE; NANOCRYSTALLINE MATERIALS; POSITIVE IONS;

IRON OXIDES;

CATALYSIS; CATION; CHEMICAL COMPOSITION; COST-BENEFIT ANALYSIS; ELECTROCHEMICAL METHOD; ELECTRODE; ELECTRONIC EQUIPMENT; ENERGETICS; IRON OXIDE; LITHIUM; OXIDATION; PRECIPITATION (CHEMISTRY); SPINEL;

EID: 79953669156     PISSN: 17545692     EISSN: 17545706     Source Type: Journal    
DOI: 10.1039/c0ee00819b     Document Type: Article

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