Graphene/vanadium oxide nanotubes composite as electrode material for electrochemical capacitors

Graphene/vanadium oxide nanotubes composite as electrode material for electrochemical capacitors

Graphene/vanadium oxide nanotubes (VOx-NTs) composite was successfully synthesized through the hydrothermal process in which acetone as solvent and 1-hexadecylamine (HDA) as structure-directing template were used. Morphology, structure and composition of the as-obtained composite were investigated b...

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Veröffentlicht in:Physica. B, Condensed matter Condensed matter, 2013-07, Vol.421, p.77-82
Hauptverfasser: Fu, Meimei, Ge, Chongyong, Hou, Zhaohui, Cao, Jianguo, He, Binhong, Zeng, Fanyan, Kuang, Yafei
Format: Artikel
Sprache:eng
Schlagworte:
Chemistry
Composite materials
Condensed matter
Current density
Electrochemical capacitor
Electrochemistry
Electrode materials
Electrodes
Electrodes: preparations and properties
Exact sciences and technology
General and physical chemistry
Graphene
Hydrothermal
Nanotubes
Scanning electron microscopy
Vanadium oxide nanotubes
Vanadium oxides
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Zusammenfassung:Graphene/vanadium oxide nanotubes (VOx-NTs) composite was successfully synthesized through the hydrothermal process in which acetone as solvent and 1-hexadecylamine (HDA) as structure-directing template were used. Morphology, structure and composition of the as-obtained composite were investigated by scanning electron microscopy (SEM), X-ray diffraction (XRD), Raman spectroscopy, nitrogen isothermal adsorption/desorption and thermo gravimetric analysis (TGA). The composite with the VOx-NTs amount of 69.0wt% can deliver a specific capacitance of 210F/g at a current density of 1A/g in 1M Na2SO4 aqueous solution, which is nearly twice as that of pristine graphene (128F/g) or VOx-NTs (127F/g), and exhibit a good performance rate. Compared with pure VOx-NTs, the cycle stability of the composite was also greatly improved due to the enhanced conductivity of the electrode and the structure buffer role of graphene.
ISSN:0921-4526
1873-2135
DOI:10.1016/j.physb.2013.04.013