In the present paper, hierarchical NiO with different surface areas and porous distributions and NiO-graphene composites have been prepared successfully by a facile hydrothermal route combining a calcinations process. The as-prepared NiO and NiO-graphene composites are used as anode materials for LIBs. The results show that the lithium storage capacity is associated with the surface and nanostructure of the anode materials. The lithium storage capacity maintains at ∼ 400 mAh/g-1 and ∼850mAh/g-1 after 50 cycles for NiO and NiO-graphene, respectively. The impedance testing shows that NiO-graphene has lower impedance compared to NiO, which contributes to better electrochemical properties.


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    Title :

    Synthesis of 3D-hierarchical NiO-G composites with enhanced electrochemical performances as anode for lithium secondary batteries


    Contributors:
    Caihong Feng, (author) / Menghuan Yang, (author) / Zhichao Sun, (author) / Liwei Han, (author) / Kening Sun, (author)


    Publication date :

    2014-08-01


    Size :

    2286106 byte




    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English