Electrochemical performance of Sn–Sb–Cu film anodes prepared by layer-by-layer electrodeposition

► The Sn–Sb–Cu film was prepared by layer-by-layer electrodeposition. ► Sn–Sb–Cu electrode was annealed to restrain the pulverization. ► The annealed Sn–Sb–Cu anode shows high reversible capacity and good capacity retention. A novel layer-by-layer electrodeposition and heat-treatment approach was at...

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Bibliographic Details
Published in:Applied surface science 2012-02, Vol.258 (8), p.3854-3858
Main Authors: Jiang, Qianlei, Xue, Ruisheng, Jia, Mengqiu
Format: Article
Language:English
Subjects:
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Cross-disciplinary physics: materials science
rheology
Exact sciences and technology
Heat-treatment
Layer-by-layer electrodeposition
Lithium ion batteries
Physics
Sn–Sb–Cu film anode
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Summary:► The Sn–Sb–Cu film was prepared by layer-by-layer electrodeposition. ► Sn–Sb–Cu electrode was annealed to restrain the pulverization. ► The annealed Sn–Sb–Cu anode shows high reversible capacity and good capacity retention. A novel layer-by-layer electrodeposition and heat-treatment approach was attempted to obtain Sn–Sb–Cu film anode for lithium ion batteries. The preparation of Sn–Sb–Cu anodes started with galvanostatic electrochemically depositing antimony and tin sequentially on the substrate of copper foil collector. Sn–Sb and Cu–Sb alloys were formed when heated. The SEM analysis showed that the crystalline grains become bigger and the surface of the Sn–Sb–Cu anode becomes more denser after annealing. The energy dispersive spectroscopy (EDS) and X-ray diffraction (XRD) analysis showed the antimony, tin and copper were alloyed to form SnSb and Cu2Sb after heat treatment. The X-ray photoelectron spectroscopy (XPS) analysis showed the surface of the Sn–Sb–Cu electrode was covered by a thin oxide layer. Electrochemical measurements showed that the annealed Sn–Sb–Cu anode has high reversible capacity and good capacity retention. It exhibited a reversible capacity of about 962mAh/g in the initial cycle, which still remained 715mAh/g after 30 cycles.
ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2011.12.044