Nanomaterials (May 2019)

Sulfur-Doped Reduced Graphene Oxide for Enhanced Sodium Ion Pseudocapacitance

  • Yiting Wang,
  • Mingxiang Hu,
  • Desheng Ai,
  • Hongwei Zhang,
  • Zheng-Hong Huang,
  • Ruitao Lv,
  • Feiyu Kang

DOI
https://doi.org/10.3390/nano9050752
Journal volume & issue
Vol. 9, no. 5
p. 752

Abstract

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Sodium-ion capacitors (NICs) are considered an important candidate for large-scale energy storage in virtue of their superior energy–power properties, as well as availability of rich Na+ reserves. To fabricate high-performance NIC electrode material, a hydrothermal method was proposed to synthesize sulfur-doped reduced graphene oxide (SG), which exhibited unique layered structures and showed excellent electrochemical properties with 116 F/g capacitance at 1 A/g as the cathode of NICs from 1.6 V to 4.2 V. At the power–energy density over 5000 W/kg, the SG demonstrated over 100 Wh/kg energy density after 3500 cycles, which indicated its efficient durability and superior power–energy properties. The addition of a sulfur source in the hydrothermal process led to the higher specific surface area and more abundant micropores of SG when compared with those of reduced graphene oxide (rGO), thus SG exhibited much better electrochemical properties than those shown by rGO. Partially substituting surface oxygen-containing groups of rGO with sulfur-containing groups also facilitated the enhanced sodium-ion storage ability of SG by introducing sufficient pseudocapacitance.

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