Enhanced storage capability and kinetic processes by pores- and hetero-atoms- riched carbon nanobubbles for lithium-ion and sodium-ion batteries anodes

@inproceedings{Song2014EnhancedSC,
  title={Enhanced storage capability and kinetic processes by pores- and hetero-atoms- riched carbon nanobubbles for lithium-ion and sodium-ion batteries anodes},
  author={Huawei Song and Na Li and Hao Hao Cui and Chengxin Wang},
  year={2014}
}
Abstract Efficient electrodes with impressive storage capability and fast kinetic processes are urgently needed in meeting the demand for high energy and large rate powering devices. Through a simple silica templated ionic liquids (ILs) impregnating method and an annealing process, nitrogen and oxygen co-doped carbon nanobubbles are synthesized. The fabricated carbon nanobubbles feature multiscale nanopores and abundant few-layer graphitic zones in the thin shells of several nanometers. When… CONTINUE READING

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