Journal
APPLIED SURFACE SCIENCE
Volume 494, Issue -, Pages 458-464Publisher
ELSEVIER
DOI: 10.1016/j.apsusc.2019.07.192
Keywords
NaV6O15 center dot nH(2)O; rGO; Sodium ion batteries; Cycling stability; Rate capability
Categories
Funding
- National Natural Science Foundation of China Program, China [51602111]
- Natural Science Foundation of Guangdong Province, China [2018A030313739]
- Cultivation project of National Engineering Technology Center, China [2017B090903008]
- Xijiang R&D Team, Guangdong Provincial Grant, China [2017A050506009]
- Special Fund Project of Science and Technology Application in Guangdong [2017B020240002]
- 111 Project, China
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The NaV6O15 center dot nH(2)O (NVO center dot nH(2)O) nanowires are wrapped by reduced graphene oxide (rGO) layers via facile onepot hydrothermal method to construct electrode materials with 3D nanostructure for sodium ion batteries. The inserted sodium ion and water molecules could enlarge interlayer distance of V2O5, which realize fast sodium ion diffusion, further improving the sodium storage property. According to the electrochemical performance and corresponding analysis, the rGO layer not only prevents NVO center dot nH(2)O from dissolution in the electrolyte, but also enhances the electron and ion transport, which ensures high rate property and cycling stability. Benefiting from the sodium ion and water molecule insertion and protective rGO layer, the rGO/NVO center dot nH(2)O exhibits significantly improved electrochemical performance. Most importantly, the kinetics analysis demonstrates that the surface pseudocapacitance is the dominant contribution to capacity.
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