Download This PaperHollow Fe3o4 Encapsulated in Intertwined N-Doped Carbon Nanofibers as Electrode Materials for High-Performance Supercapacitors and Sodium-Ion Batteries
18 Pages Posted: 20 Mar 2022
Abstract
As a promising electrode for energy storage, Fe 3 O 4 has many intriguing advantages, such as a high specific capacity, low cost, low toxicity, wide potential window and environmental benignity. However, the multi-phase changes of iron oxide during the charge and discharge process can give rise to a sharp decrease in its capacity. In addition, the low conductivity of Fe 3 O 4 may hinder the charge transfer and ion diffusion during redox process. In order to solve the above issues, this study mainly attempts to design a nanocomposite of Fe 3 O 4 encapsulated in intertwined N-doped carbon nanofibers (CNFs) via using electrospinning and high-temperature calcination. The sealed structure can efficiently relieve the volume effect of Fe 3 O 4 and raise the stability of electrodes. While a 3-dimensional interconnected conductive network composed of CNFs can increase the electroconductibility of electrodes. At the same time, the N-doping increases active sites on the surface of CNFs, providing more space for ions and charges storage. Herein, different amounts of Fe 3 O 4 are encapsulated in N-doped CNFs (Fe 3 O 4 CNFs). Fe 3 O 4 CNFs with 40% content of Fe 3 O 4 (4Fe 3 O 4 CNFs) deliver splendid electrochemical performances for all-solid-state supercapacitors and sodium-ion batteries. The specific capacitance of 4Fe 3 O 4 CNFs supercapacitor is 184.5 F∙g -1 and maintains 86.2% of initial capacity at 2 A g -1 after 5000 times. Furthermore, 4Fe 3 O 4 CNFs as the anode for the half cell vs. Na + /Na demonstrate a splendid specific capacity of 628.1 mAh∙g -1 at 0.02 A∙g -1 and can maintain 358.1 mAh∙g -1 after cycling for 200 laps at 500 mA∙g -1 . Therefore, 4Fe 3 O 4 CNFs can be widely used in energy storage.
Keywords: Fe3O4, carbon nanofibers, encapsulated structure, supercapacitors, Na+/Na half cells
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