Lowering interfacial chemical reactivity of oxide materials for lithium batteries. A molecular grafting approach

Journal of Materials Chemistry

Volumn 19, Issue 27, 2009, Pages 4771-4777

  Tanguy, Franois ^a   Gaubicher, Joël ^a   Gaillot, Anne Claire ^a   Guyomard, Dominique ^a   Pinson, Jean ^b  

^a INSTITUT DES MATÉRIAUX JEAN ROUXEL   (France)

^b PSL RESEARCH UNIVERSITY   (France)

Author keywords

[No Author keywords available]

Indexed keywords

ARYL MOLECULES; BATTERY MANUFACTURING; DERIVATIZATION OF; DIAZONIUM CHEMISTRY; DIAZONIUM SALTS; EFFICIENT PATH; ELECTRODE PROCESSING; ELECTRODE SURFACES; ELECTROGRAFTING; ELECTROLYTE DECOMPOSITION; IN-SITU; INTERFACIAL CHEMICALS; ION INTERCALATION; MOLECULAR GRAFTING; NANO GRAINS; ORGANIC MULTILAYERS; OXIDE ELECTRODES; OXIDE MATERIALS; REACTIVITY OF OXIDES; RESEARCH DIRECTIONS; SIDE REACTIONS; STORAGE PROPERTIES; SURFACE DERIVATIZATION; SURFACE MODIFICATION; SURFACE REACTIVITY; TEM; XPS;

CHARGE TRANSFER; CHEMICAL MODIFICATION; CHEMICAL REACTIVITY; ELECTROCHEMICAL ELECTRODES; ELECTROLYTES; GRAFTING (CHEMICAL); INDUSTRIAL RESEARCH; INTERCALATION; INTERFACIAL ENERGY; ION EXCHANGE; LITHIUM; LITHIUM BATTERIES; MATERIALS; SINGLE CRYSTALS;

SURFACES;

EID: 67649678444     PISSN: 09599428     EISSN: 13645501     Source Type: Journal    
DOI: 10.1039/b901387c     Document Type: Article

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