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Design of Fe(3–x)O4 raspberry decorated graphene nanocomposites with high performances in lithium-ion battery
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作者 Olivier Gerber sylvie bégin-colin +7 位作者 benoit P.Pichon Elodie barraud bastien Lemonnier Cuong Pham-Huu barbara Daffos Patrice Simon Jeremy Come Dominique gin 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2016年第2期270-275,共6页
Fe(3–x)O4 raspberry shaped nanostructures/graphene nanocomposites were synthesized by a one-step polyol-solvothermal method to be tested as electrode materials for Li-ion battery(LIB). Indeed, Fe(3–x)O4 raspbe... Fe(3–x)O4 raspberry shaped nanostructures/graphene nanocomposites were synthesized by a one-step polyol-solvothermal method to be tested as electrode materials for Li-ion battery(LIB). Indeed, Fe(3–x)O4 raspberry shaped nanostructures consist of original oriented aggregates of Fe(3–x)O4 magnetite nanocrystals, ensuring a low oxidation state of magnetite and a hollow and porous structure, which has been easily combined with graphene sheets. The resulting nanocomposite powder displays a very homogeneous spatial distribution of Fe(3–x)O4 nanostructures at the surface of the graphene sheets. These original nanostructures and their strong interaction with the graphene sheets resulted in very small capacity fading upon Li+ion intercalation. Reversible capacity, as high as 660 m Ah/g, makes this material promising for anode in Li-ion batteries application. 展开更多
关键词 Graphene Fe3–xO4 raspberry shaped nanostructures Fe3–xO4/graphene nanocomposites Lithium-ion battery Reversible capacity
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