Porous SnO/C Nanofiber Anodes and LiFePO/C Nanofiber Cathodes with a Wrinkle Structure for Stretchable Lithium Polymer Batteries with High Electrochemical Performance.

Stretchable lithium batteries have attracted considerable attention as components in future electronic devices, such as wearable devices, sensors, and body-attachment healthcare devices. However, several challenges still exist in the bid to obtain excellent electrochemical properties for stretchable batteries. Here, a unique stretchable lithium full-cell battery is designed using 1D nanofiber active materials, stretchable gel polymer electrolyte, and wrinkle structure electrodes.

Data on hollow NiO nanofibers prepared via electrospinning using camphene and subsequent various heat-treatment temperatures for anodes in lithium ion batteries.

The data presented in this article are related to the research article entitled "New synthesis strategy for hollow NiO nanofibers with interstitial nanovoids prepared via electrospinning using camphene for anodes of lithium-ion batteries" [1]. Hollow NiO nanofibers were prepared by electrospinning process using camphene and subsequent heat-treatment process with various temperatures. The data presented in this manuscript showed the effect of the heat-treatment temperature of the as-spun fibers on the lithium ion storage properties of the hollow NiO nanofibers as anodes for lithium ion batteries.