Nanoscale Research Letters (Jun 2019)

3D CoMoSe4 Nanosheet Arrays Converted Directly from Hydrothermally Processed CoMoO4 Nanosheet Arrays by Plasma-Assisted Selenization Process Toward Excellent Anode Material in Sodium-Ion Battery

  • Shan Zhang,
  • Yuanfei Ai,
  • Shu-Chi Wu,
  • Hsiang-Ju Liao,
  • Teng-Yu Su,
  • Jyun-Hong Chen,
  • Chuan-Hsun Wang,
  • Ling Lee,
  • Yu-Ze Chen,
  • Binbin Xu,
  • Shin-Yi Tang,
  • Ding Chou Wu,
  • Shao-Shin Lee,
  • Jun Yin,
  • Jing Li,
  • Junyong Kang,
  • Yu-Lun Chueh

DOI
https://doi.org/10.1186/s11671-019-3035-6
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 9

Abstract

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Abstract In this work, three-dimensional (3D) CoMoSe4 nanosheet arrays on network fibers of a carbon cloth denoted as CoMoSe4@C converted directly from CoMoO4 nanosheet arrays prepared by a hydrothermal process followed by the plasma-assisted selenization at a low temperature of 450 °C as an anode for sodium-ion battery (SIB) were demonstrated for the first time. With the plasma-assisted treatment on the selenization process, oxygen (O) atoms can be replaced by selenium (Se) atoms without the degradation on morphology at a low selenization temperature of 450 °C. Owing to the high specific surface area from the well-defined 3D structure, high electron conductivity, and bi-metal electrochemical activity, the superior performance with a large sodium-ion storage of 475 mA h g−1 under 0.5–3 V potential range at 0.1 A g−1 was accomplished by using this CoMoSe4@C as the electrode. Additionally, the capacity retention was well maintained over 80 % from the second cycle, exhibiting a satisfied capacity of 301 mA h g−1 even after 50 cycles. The work delivered a new approach to prepare a binary transition metallic selenide and definitely enriches the possibilities for promising anode materials in SIBs with high performances.

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