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Volumn 56, Issue 16, 2011, Pages 5667-5672
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Enhanced performance of LiFePO4 through hydrothermal synthesis coupled with carbon coating and cupric ion doping
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Author keywords
Hydrothermal synthesis; Lithium ion batteries; Lithium iron phosphate; Modification; Post heat treatment
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Indexed keywords
AVERAGE SIZE;
CAPACITY RETENTION;
CARBON COATING;
CHARGE TRANSFER RESISTANCE;
CHARGE-DISCHARGE;
CUPRIC IONS;
ELECTROCHEMICAL PERFORMANCE;
ELECTRODE REACTIONS;
ELECTRONIC CONDUCTIVITY;
ENHANCED PERFORMANCE;
GALVANOSTATICS;
HYDROTHERMAL METHODS;
HYDROTHERMAL REACTION;
LIFEPO;
LITHIUM ION BATTERIES;
LITHIUM IRON PHOSPHATE;
MODIFICATION;
PHOSPHO-OLIVINE;
POST-HEAT TREATMENT;
SCANNING ELECTRON MICROSCOPY IMAGE;
SPECIFIC DISCHARGE CAPACITY;
SYNTHESIS ROUTE;
CHARGE TRANSFER;
COATINGS;
CYCLIC VOLTAMMETRY;
DIFFRACTION;
DOPING (ADDITIVES);
ELECTRIC DISCHARGES;
ELECTROCHEMICAL CORROSION;
ELECTROCHEMICAL ELECTRODES;
ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY;
ELECTROCHEMICAL PROPERTIES;
ENERGY DISPERSIVE SPECTROSCOPY;
HEAT RESISTANCE;
HEAT TREATMENT;
ION EXCHANGE;
IONS;
IRON COMPOUNDS;
LITHIUM;
LITHIUM ALLOYS;
LITHIUM COMPOUNDS;
OLIVINE;
SCANNING ELECTRON MICROSCOPY;
TRANSMISSION ELECTRON MICROSCOPY;
X RAY DIFFRACTION;
HYDROTHERMAL SYNTHESIS;
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EID: 79957822674
PISSN: 00134686
EISSN: None
Source Type: Journal
DOI: 10.1016/j.electacta.2011.04.024 Document Type: Article |
Times cited : (57)
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References (30)
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