@article{33317,
  author = {Wei Tong and Yudai Huang and Wei Jia and Xingchao Wang and Yong Guo and Zhipeng Sun and Dianzeng Jia and Jun Zong},
  title = {Leaf-like interconnected network structure of MWCNT/Co9S8/S for lithium-sulfur batteries},
  abstract = {<p><span>Lithium-sulfur batteries have several disadvantages, such as intrinsic insulation of sulfur and Li</span><span>2</span><span>S, large volume expansion, and inevitable shuttle effect, which lead to low utilization of active materials and rapid capacity decay. Herein, leaf-like interconnected network structure of MWCNT/Co</span><span>9</span><span>S</span><span>8</span><span>&nbsp;was synthesized by a simple&nbsp;<a title="Learn more about Hydrothermal Synthesis from ScienceDirect's AI-generated Topic Pages" href="https://www.sciencedirect.com/topics/materials-science/hydrothermal-synthesis">hydrothermal method</a>. The MWCNT/Co</span><span>9</span><span>S</span><span>8</span><span>/S delivers a high specific capacity and good cycling stability. The initial discharge capacity of MWCNT/Co</span><span>9</span><span>S</span><span>8</span><span>/S is 1124&nbsp;mAh&nbsp;g</span><span>−1</span><span>&nbsp;and retains at 503&nbsp;mAh&nbsp;g</span><span>−1</span><span>&nbsp;after 100 cycles at 0.1&nbsp;C. The improved electrochemical performance of MWCNT/Co</span><span>9</span><span>S</span><span>8</span><span>/S could be attributed to the interconnected network MWCNT and polar Co</span><span>9</span><span>S</span><span>8</span><span>. As conductive skeletons, the interconnected network structure of MWCNT midribs provide fast conduction paths for electron and additional space for volume expansion of sulfur. Furthermore, sulfur particles well-distributed on the MWCNT/Co</span><span>9</span><span>S</span><span>8</span><span>&nbsp;scaffold facilitate Li</span><span>+</span><span>&nbsp;ions storage and release for energy delivery, which is beneficial to excellent activation of sulfur and high rate capacity. In addition, the polar Co</span><span>9</span><span>S</span><span>8</span><span>&nbsp;leaves provide strong binding sites to trap polar&nbsp;<a title="Learn more about Polysulfides from ScienceDirect's AI-generated Topic Pages" href="https://www.sciencedirect.com/topics/materials-science/polysulfides">polysulfide</a>&nbsp;intermediates, which can suppress the shuttle effect effectively.</span></p>},
  year = {2018},
  journal = {Journal of Alloys and Compounds},
  volume = {731},
  pages = {964 - 970},
  month = {01/2018},
  issn = {09258388},
  doi = {10.1016/j.jallcom.2017.10.115},
  language = {eng},
}