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Novel Silicon Doped Tin Oxide–Carbon Microspheres as Anode Material for Lithium Ion Batteries: The Multiple Effects Exerted by Doped Si

Novel Silicon Doped Tin Oxide–Carbon Microspheres as Anode Material for Lithium Ion Batteries: The Multiple Effects Exerted by Doped Si
Ka Ming Ng, Yuanzhong Tan, Ka-Wai Wong
Silicon doped tin oxide embedded porous carbon microspheres (SiySn1–yOx@C) are synthesized. It is found that the doped Si not only improves the reversibility of lithiation/delithiation reactions, but also prevents Sn from aggregation. In addition, the doped Si introduces extra defects into the carbon matrix and produces Li+ conductive Li4SiO4, which accelerates Li+ diffusion. Together with the conductive, porous carbon matrix that provides void space to accommodate the volume change of Sn during charge/discharge cycling, the novel SiySn1–yOx@C exhibits excellent electrochemical performance. It shows a high initial columbic efficiency of 75.9%. A charge (delithiation) capacity of 880.32 mA h g−1 is retained after 150 cycles, i.e., 91% of the initial capacity. These results indicate that the as-synthesized SiySn1–yOx@C is a promising anode material for lithium ion batteries. Si doped tin oxide–porous carbon microspheres (SiySn1–yOx@C) with uniformly dispersed Sn and Si are successfully prepared by a new synthetic method using sodium gluconate as the carbon source. This novel composite exhibits high capacity, excellent cyclability, and outstanding rate capability, showing that it is a promising anode material for lithium ion batteries.

Publisher URL: http://onlinelibrary.wiley.com/resolve/doi

DOI: 10.1002/smll.201702614

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