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Sulfur-Based Electrodes that Function via Multielectron Reactions for Room-Temperature Sodium-Ion Storage

Journal Article


Abstract


  • Emerging rechargeable sodium-ion storage systems—sodium-ion and room-temperature sodium–sulfur (RT-NaS) batteries—are gaining extensive research interest as low-cost options for large-scale energy-storage applications. Owing to their abundance, easy accessibility, and unique physical and chemical properties, sulfur-based materials, in particular metal sulfides (MSx) and elemental sulfur (S), are currently regarded as promising electrode candidates for Na-storage technologies with high capacity and excellent redox reversibility based on multielectron conversion reactions. Here, we present current understanding of Na-storage mechanisms of the S-based electrode materials. Recent progress and strategies for improving electronic conductivity and tolerating volume variations of the MSx anodes in Na-ion batteries are reviewed. In addition, current advances on S cathodes in RT-NaS batteries are presented. We outline a novel emerging concept of integrating MSx electrocatalysts into conventional carbonaceous matrices as effective polarized S hosts in RT-NaS batteries as well. This comprehensive progress report could provide guidance for research toward the development of S-based materials for the future Na-storage techniques.

Authors


  •   Wang, Yun-Xiao
  •   Lai, Weihong (external author)
  •   Wang, Yun-Xia (external author)
  •   Chou, Shulei
  •   Ai, Xinping (external author)
  •   Yang, Hanxi (external author)
  •   Cao, Yuliang (external author)

Publication Date


  • 2019

Citation


  • Wang, Y., Lai, W., Wang, Y., Chou, S., Ai, X., Yang, H. & Cao, Y. (2019). Sulfur-Based Electrodes that Function via Multielectron Reactions for Room-Temperature Sodium-Ion Storage. Angewandte Chemie - International Edition, 58 (51), 18324-18337.

Scopus Eid


  • 2-s2.0-85068773217

Number Of Pages


  • 13

Start Page


  • 18324

End Page


  • 18337

Volume


  • 58

Issue


  • 51

Place Of Publication


  • Germany

Abstract


  • Emerging rechargeable sodium-ion storage systems—sodium-ion and room-temperature sodium–sulfur (RT-NaS) batteries—are gaining extensive research interest as low-cost options for large-scale energy-storage applications. Owing to their abundance, easy accessibility, and unique physical and chemical properties, sulfur-based materials, in particular metal sulfides (MSx) and elemental sulfur (S), are currently regarded as promising electrode candidates for Na-storage technologies with high capacity and excellent redox reversibility based on multielectron conversion reactions. Here, we present current understanding of Na-storage mechanisms of the S-based electrode materials. Recent progress and strategies for improving electronic conductivity and tolerating volume variations of the MSx anodes in Na-ion batteries are reviewed. In addition, current advances on S cathodes in RT-NaS batteries are presented. We outline a novel emerging concept of integrating MSx electrocatalysts into conventional carbonaceous matrices as effective polarized S hosts in RT-NaS batteries as well. This comprehensive progress report could provide guidance for research toward the development of S-based materials for the future Na-storage techniques.

Authors


  •   Wang, Yun-Xiao
  •   Lai, Weihong (external author)
  •   Wang, Yun-Xia (external author)
  •   Chou, Shulei
  •   Ai, Xinping (external author)
  •   Yang, Hanxi (external author)
  •   Cao, Yuliang (external author)

Publication Date


  • 2019

Citation


  • Wang, Y., Lai, W., Wang, Y., Chou, S., Ai, X., Yang, H. & Cao, Y. (2019). Sulfur-Based Electrodes that Function via Multielectron Reactions for Room-Temperature Sodium-Ion Storage. Angewandte Chemie - International Edition, 58 (51), 18324-18337.

Scopus Eid


  • 2-s2.0-85068773217

Number Of Pages


  • 13

Start Page


  • 18324

End Page


  • 18337

Volume


  • 58

Issue


  • 51

Place Of Publication


  • Germany