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Electrospun Nanofbers, with their controllable nanostructures, high electrical conductivity and large specific surface area (SSA), have great potential and broad application prospects in the construction of aqueous zinc ion batteries (AZIBs) with excellent electrochemical performance.
Recently, Prof. Shimou Chen of Beijing University of Chemical Technology published a review outlining the recent progress of Electrospun Nanofbers for aqueous zinc ion batteries.
The review, titled “Recent advances in electrospinning nanofiber materials for aqueous zinc ion batteries,” was published in the journal Chemical Science.
1. This paper firstly briefly introduces the principle and process of electrospinnig machine and the structural design of AZIB Electrospun Nanofbers.
2. The research progress of Electrospun Nanofbers in AZIB in recent years is summarized, including positive electrode, negative electrode and diaphragm.
3. Highlighting the working mechanism of Electrospun Nanofbers and the relationship between electrode structure and performance.
4. Finally, the development prospect of high-performance AZIB Electrospun Nanofbers is envisioned.
1.Electrospun Nanofbers promote the transfer of Zn2+, improve the wettability between the diaphragm and electrolyte, and help to resist the puncture of Zn dendrites.
2. Unique structures, defects, and functional groups generated and introduced on Electrospun Nanofbers favor the development of AZIB. For example, doped heterocarbon fibers can improve the electronic conductivity of anode materials, and the interlayer of Zn-friendly carbon nanofibers can uniformly deposit Zn2+.
3. Electrospun Nanofbers can be designed with high porosity and excellent flexibility, which is favorable to AZIB performance
Originallink: https://doi.org/10.1039/D3SC05283D
