Energies (Feb 2020)

Solvent-Dictated Sodium Sulfur Redox Reactions: Investigation of Carbonate and Ether Electrolytes

  • Huang Zhang,
  • Thomas Diemant,
  • Bingsheng Qin,
  • Huihua Li,
  • R. Jürgen Behm,
  • Stefano Passerini

DOI
https://doi.org/10.3390/en13040836
Journal volume & issue
Vol. 13, no. 4
p. 836

Abstract

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Sulfur-based cathode chemistries are essential for the development of high energy density alkali-ion batteries. Here, we elucidate the redox kinetics of sulfur confined on carbon nanotubes, comparing its performance in ether-based and carbonate-based electrolytes at room temperature. The solvent is found to play a key role for the electrochemical reactivity of the sulfur cathode in sodium−sulfur (Na−S) batteries. Ether-based electrolytes contribute to a more complete reduction of sulfur and enable a higher electrochemical reversibility. On the other hand, an irreversible solution-phase reaction is observed in carbonate solvents. This study clearly reveals the solvent-dependent Na−S reaction pathways in room temperature Na−S batteries and provides an insight into realizing their high energy potential, via electrolyte formulation design.

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