Abstract
The data presented in this article are related to the research article entitled “Multi-channel-contained few-layered MoSe2 nanosheet/N-doped carbon hybrid nanofibers prepared using diethylenetriamine as anodes for high-performance sodium-ion batteries” Jeong et al., 2019. The data presented in this manuscript showed the effect of the selenization temperature of the as-spun fibers on the cycle and rate properties as anodes for sodium ion batteries. Each morphology, phase, and the resulting cycle and rate properties of the MoSe2/C composite nanofibers obtained after various selenization temperatures were investigated.
Highlights
Dataset on the effect of heat-treatment temperature on the cycle and rate properties of MoSe2/C composite nanofibers as anodes for sodium ion batteries
The data presented in this article are related to the research article entitled “Multi-channel-contained few-layered MoSe2 nanosheet/ N-doped carbon hybrid nanofibers prepared using diethylenetriamine as anodes for high-performance sodium-ion batteries” Jeong et al, 2019
The data presented in this manuscript showed the effect of the selenization temperature of the as-spun fibers on the cycle and rate properties as anodes for sodium ion batteries
Summary
Dataset on the effect of heat-treatment temperature on the cycle and rate properties of MoSe2/C composite nanofibers as anodes for sodium ion batteries. The data presented in this article are related to the research article entitled “Multi-channel-contained few-layered MoSe2 nanosheet/ N-doped carbon hybrid nanofibers prepared using diethylenetriamine as anodes for high-performance sodium-ion batteries” Jeong et al, 2019.
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