Revisiting the Role of Conductivity and Polarity of Host Materials for Long-Life Lithium–Sulfur Battery

Byong June Lee, Tong Hyun Kang, Ha Young Lee, Jitendra S. Samdani, Yongju Jung, Chunfei Zhang, Zhou Yu, Gui Liang Xu, Lei Cheng, Seoungwoo Byun, Yong Min Lee, Khalil Amine, Jong Sung Yu

Research output: Contribution to journalArticlepeer-review

69 Scopus citations

Abstract

Despite their high theoretical energy density and low cost, lithium–sulfur batteries (LSBs) suffer from poor cycle life and low energy efficiency owing to the polysulfides shuttle and the electronic insulating nature of sulfur. Conductivity and polarity are two critical parameters for the search of optimal sulfur host materials. However, their role in immobilizing polysulfides and enhancing redox kinetics for long-life LSBs are not fully understood. This work has conducted an evaluation on the role of polarity over conductivity by using a polar but nonconductive platelet ordered mesoporous silica (pOMS) and its replica platelet ordered mesoporous carbon (pOMC), which is conductive but nonpolar. It is found that the polar pOMS/S cathode with a sulfur mass fraction of 80 wt% demonstrates outstanding long-term cycle stability for 2000 cycles even at a high current density of 2C. Furthermore, the pOMS/S cathode with a high sulfur loading of 6.5 mg cm−2 illustrates high areal and volumetric capacities with high capacity retention. Complementary physical and electrochemical probes clearly show that surface polarity and structure are more dominant factors for sulfur utilization efficiency and long-life, while the conductivity can be compensated by the conductive agent involved as a required electrode material during electrode preparation. The present findings shed new light on the design principles of sulfur hosts towards long-life and highly efficient LSBs.

Original languageEnglish
Article number1903934
JournalAdvanced Energy Materials
Volume10
Issue number22
DOIs
StatePublished - Jun 1 2020
Externally publishedYes

Keywords

  • cycle stability
  • lithium–sulfur batteries
  • mesoporous silica
  • polarity
  • sulfur hosts

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