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Volumn 205, Issue 5, 2010, Pages 1589-1594
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Constitution, microstructure, and battery performance of magnetron sputtered Li-Co-O thin film cathodes for lithium-ion batteries as a function of the working gas pressure
a
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Author keywords
Battery performance; Gas pressure; Lithium cobalt oxide; Magnetron sputtering; Thin film cathode
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Indexed keywords
ANNEALING TEMPERATURES;
AS-DEPOSITED FILMS;
BATTERY PERFORMANCE;
CATION ORDERING;
CHARACTERISATION;
DISCHARGE CAPACITIES;
FILM DENSITY;
GAS PRESSURE;
GAS PRESSURES;
HIGH TEMPERATURE PHASE;
INTRINSIC STRESS;
LAYERED STRUCTURES;
LITHIUM COBALT OXIDE;
LITHIUM-ION BATTERY;
LOW TEMPERATURE PHASE;
NANOCRYSTALLINES;
RAMAN SPECTRUM;
RF-MAGNETRON SPUTTERING;
ROCK-SALT STRUCTURE;
STAINLESS STEEL SUBSTRATES;
THIN FILM CATHODE;
THIN FILM CATHODES;
THIN FILM MORPHOLOGY;
WORKING GAS PRESSURE;
XRD;
ANNEALING;
ATMOSPHERIC TEMPERATURE;
CATHODES;
CRYSTAL STRUCTURE;
GASES;
LITHIUM;
LITHIUM ALLOYS;
LITHIUM COMPOUNDS;
MAGNETRON SPUTTERING;
POSITIVE IONS;
RAMAN SCATTERING;
RAMAN SPECTROSCOPY;
SEMICONDUCTING SILICON COMPOUNDS;
STAINLESS STEEL;
THIN FILMS;
VAPOR DEPOSITION;
COBALT;
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EID: 78649954372
PISSN: 02578972
EISSN: None
Source Type: Journal
DOI: 10.1016/j.surfcoat.2010.07.110 Document Type: Article |
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Times cited : (27)
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References (14)
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