“…This also points towards the synergistic effect caused by the involvement of mesoporous carbon with polycrystalline Ni 2 S. This composite structure compensates for volume change with the increase in the number of cycles due to which Na + ion diffusion is improved for better cycling performance. 54…”
Section: Resultsmentioning
confidence: 99%
“…This also points towards the synergistic effect caused by the involvement of mesoporous carbon with polycrystalline Ni 2 S. This composite structure compensates for volume change with the increase in the number of cycles due to which Na + ion diffusion is improved for better cycling performance. 54 The reason for capacity fading is further investigated by performing EIS studies of the NiS 2 /C composite, as-obtained and after 100 cycles (Fig. 5a).…”
The successful deployment of sodium-ion batteries (SIBs) requires high-performance sustainable and cost-effective anode materials with high current density. In this regard, sodium disulphide (NiS2) has been prepared as a composite...
“…This also points towards the synergistic effect caused by the involvement of mesoporous carbon with polycrystalline Ni 2 S. This composite structure compensates for volume change with the increase in the number of cycles due to which Na + ion diffusion is improved for better cycling performance. 54…”
Section: Resultsmentioning
confidence: 99%
“…This also points towards the synergistic effect caused by the involvement of mesoporous carbon with polycrystalline Ni 2 S. This composite structure compensates for volume change with the increase in the number of cycles due to which Na + ion diffusion is improved for better cycling performance. 54 The reason for capacity fading is further investigated by performing EIS studies of the NiS 2 /C composite, as-obtained and after 100 cycles (Fig. 5a).…”
The successful deployment of sodium-ion batteries (SIBs) requires high-performance sustainable and cost-effective anode materials with high current density. In this regard, sodium disulphide (NiS2) has been prepared as a composite...
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