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Recent Advances on Electrospun Nanofiber Materials for Post-lithium Ion Batteries

Recent Advances on Electrospun Nanofiber Materials for Post-lithium Ion Batteries Lithium ion batteries (LIBs) have dominated the portable electric market over decades; however, the limited and unevenly distributed lithium resources induce concerns on their future large-scale applications. Increasing efforts have been endeavored on exploring post-Li ion batteries, such as Na-ion, K-ion, Al-ion and Mg-ion batteries, due to the high abundance of the corresponding elements in Earth crust. Manufacturing reliable electrode materials is the key to develop these new battery systems. Facile and scalable electrospinning has been widely utilized in preparing mechanically stable, flexible and conductive nanofiber electrodes as successfully proven in LIBs. In recent years, tremendous efforts have been devoted to electrospinning nanofiber electrodes for post-Li ion batteries and discernible progress in the electrochemical performance has been witnessed. Herein, we aim to review the-state-of-the-art advances made in electrospun nanofiber materials in optimizing post-Li ion battery technology by surveying the correlations among the morphology, the surface chemistry, the structure of electrospun nanofibers, and the post-Li ion batteries performance. Based on intensive investigations and insightful understandings, perspectives to the future design of electrospun nanofiber electrodes are also presented. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png "Advanced Fiber Materials" Springer Journals

Recent Advances on Electrospun Nanofiber Materials for Post-lithium Ion Batteries

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Publisher
Springer Journals
Copyright
Copyright © Donghua University, Shanghai, China 2021
ISSN
2524-7921
eISSN
2524-793X
DOI
10.1007/s42765-021-00070-2
Publisher site
See Article on Publisher Site

Abstract

Lithium ion batteries (LIBs) have dominated the portable electric market over decades; however, the limited and unevenly distributed lithium resources induce concerns on their future large-scale applications. Increasing efforts have been endeavored on exploring post-Li ion batteries, such as Na-ion, K-ion, Al-ion and Mg-ion batteries, due to the high abundance of the corresponding elements in Earth crust. Manufacturing reliable electrode materials is the key to develop these new battery systems. Facile and scalable electrospinning has been widely utilized in preparing mechanically stable, flexible and conductive nanofiber electrodes as successfully proven in LIBs. In recent years, tremendous efforts have been devoted to electrospinning nanofiber electrodes for post-Li ion batteries and discernible progress in the electrochemical performance has been witnessed. Herein, we aim to review the-state-of-the-art advances made in electrospun nanofiber materials in optimizing post-Li ion battery technology by surveying the correlations among the morphology, the surface chemistry, the structure of electrospun nanofibers, and the post-Li ion batteries performance. Based on intensive investigations and insightful understandings, perspectives to the future design of electrospun nanofiber electrodes are also presented.

Journal

"Advanced Fiber Materials"Springer Journals

Published: Oct 1, 2021

Keywords: Electrospinning; Nanofibers; Electrodes; Post-li ion batteries

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  • Encapsulation of SeS2 into nitrogen-doped free-standing carbon nanofiber film enabling long cycle life and high energy density K-SeS2 battery
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  • Dual anionic vacancies on carbon nanofiber threaded MoSSe arrays: a free-standing anode for high-performance potassium-ion storage
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  • Self-supporting N-rich Cu2Se/C nanowires for highly reversible, long-life potassium-ion storage
    Zhu, X; Gao, J; Li, J; Hu, G; Li, J; Zhang, G; Xiang, B
  • Recent progress on the alloy-based anode for sodium-ion batteries and potassium-ion batteries
    Song, K; Liu, C; Mi, L; Chou, S; Chen, W; Shen, C
  • Si and Ge-based anode materials for Li-, Na-, and K-ion batteries: a perspective from structure to electrochemical mechanism
    Loaiza, LC; Monconduit, L; Seznec, V
  • Boosting potassium-ion battery performance by encapsulating red phosphorus in free-standing nitrogen-doped porous hollow carbon nanofibers
    Wu, Y; Hu, S; Xu, R; Wang, J; Peng, Z; Zhang, Q; Yu, Y
  • Enabling superior electrochemical properties for highly efficient potassium storage by impregnating ultrafine Sb nanocrystals within nanochannel-containing carbon nanofibers
    Ge, X; Liu, S; Qiao, M; Du, Y; Li, Y; Bao, J; Zhou, X
  • Earth abundant Fe/Mn-based layered oxide interconnected nanowires for advanced K-ion full batteries
    Wang, X; Xu, X; Niu, C; Meng, J; Huang, M; Liu, X; Liu, Z; Mai, L
  • Scientific challenges for the implementation of Zn-Ion batteries
    Blanc, LE; Kundu, D; Nazar, LF
  • Porous V2O5 nanofibers as cathode materials for rechargeable aqueous zinc-ion batteries
    Chen, X; Wang, L; Li, H; Cheng, F; Chen, J
  • Electrospun core-shell Mn3O4/carbon fibers as high-performance cathode materials for aqueous zinc-ion batteries
    Long, J; Yang, Z; Yang, F; Cuan, J; Wu, J
  • High-power aqueous zinc-ion batteries for customized electronic devices
    Kim, C; Ahn, BY; Wei, T-S; Jo, Y; Jeong, S; Choi, Y; Kim, I-D; Lewis, JA
  • Fabrication of an inexpensive hydrophilic bridge on a carbon substrate and loading vanadium sulfides for flexible aqueous zinc-ion batteries
    Liu, S; Chen, X; Zhang, Q; Zhou, J; Cai, Z; Pan, A
  • Nanomaterial-enhanced all-solid flexible Zinc-carbon batteries
    Hiralal, P; Imaizumi, S; Unalan, HE; Matsumoto, H; Minagawa, M; Rouvala, M; Tanioka, A; Amaratunga, GAJ
  • Iron oxide and phosphide encapsulated within N, P-doped microporous carbon nanofibers as advanced tri-functional electrocatalyst toward oxygen reduction/evolution and hydrogen evolution reactions and zinc-air batteries
    Wang, M; Zhang, C; Meng, T; Pu, Z; Jin, H; He, D; Zhang, J; Mu, S
  • Co9S8 nanoparticles embedded in multiple doped and electrospun hollow carbon nanofibers as bifunctional oxygen electrocatalysts for rechargeable zinc-air battery
    Peng, W; Wang, Y; Yang, XX; Mao, LC; Jin, JH; Yang, SL; Fu, K; Li, G
  • Electrospun thin-walled CuCo2O4@C nanotubes as bifunctional oxygen electrocatalysts for rechargeable Zn-air batteries
    Wang, XJ; Li, Y; Jin, T; Meng, J; Jiao, LF; Zhu, M; Chen, J
  • A flexible free-standing cathode based on graphene-like MoSe2 nanosheets anchored on N-doped carbon nanofibers for rechargeable aluminum-ion batteries
    Yang, W; Lu, H; Cao, Y; Jing, P; Hu, X; Yu, H
  • Flexible free-standing MoS2/carbon nanofibers composite cathode for rechargeable aluminum-ion batteries
    Yang, W; Lu, H; Cao, Y; Xu, B; Deng, Y; Cai, W
  • Single-/few-layered ultrasmall WS2 nanoplates embedded in nitrogen-doped carbon nanofibers as a cathode for rechargeable aluminum batteries
    Yang, WW; Lu, HM; Cao, Y; Jing, PC
  • A binder-free and free-standing cobalt sulfide@carbon nanotube cathode material for aluminum-ion batteries
    Hu, Y; Ye, D; Luo, B; Hu, H; Zhu, X; Wang, S; Li, L; Peng, S; Wang, L
  • Polyacrylonitrile separator for high-performance aluminum batteries with improved interface stability
    Elia, GA; Ducros, JB; Sotta, D; Delhorbe, V; Brun, A; Marquardt, K; Hahn, R
  • Electrospun V2MoO8 as a cathode material for rechargeable batteries with Mg metal anode
    Miao, X; Chen, Z; Wang, N; Nuli, Y; Wang, J; Yang, J; Hirano, S-i
  • An electroactive β-phase polyvinylidene fluoride as gel polymer electrolyte for magnesium–ion battery application
    Singh, R; Janakiraman, S; Khalifa, M; Anandhan, S; Ghosh, S; Venimadhav, A; Biswas, K
  • An amorphous poly(vinylidene fluoride-co-hexafluoropropylene) based gel polymer electrolyte for magnesium ion battery
    Singh, R; Janakiraman, S; Agrawal, A; Ghosh, S; Venimadhav, A; Biswas, K