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A Ternary (P, Se, S) Covalent Inorganic Framework as A Shuttle Effect-Free Cathode for Li-S Batteries.

Lu ChenTing HeKexuan LiaoHang LuJian MaYutong FengShuo MengChi ZhangJinhu Yang
Published in: Advanced materials (Deerfield Beach, Fla.) (2023)
Developing new cathode materials to avoid shuttle effect of Li-S batteries at source is crucial for practical high-energy applications, which, however, remains a great challenge. Herein, a new class of sulfur-containing ternary covalent inorganic framework (CIF), P 4 Se 6 S 40 , is explored, by simply co-melting powders of P, S and Se. The P 4 Se 6 S 40 CIF with open framework enables all active sites available during electrochemical reactions, giving a high capacity delivery. Moreover, the introducing of Se atoms can improve intrinsic electronic conductivity of S chains yet without remarkably compromising the capacity because Se is also electrochemical active to lithium storage. More importantly, Se atoms in S-Se chains can serve as a heteroatom battier to block the bonding of S atoms around, effectively avoiding the formation of long-chain polysulfides during cycling. Besides, stable Li 3 PS 4 with a tetrahedral configuration formed after lithiation works as not only a good ionic conductor to promote Li ion diffusion, but a three-dimensional spatial barrier and chemical anchor to suppress the dissolution and diffusion of lithium polysulfides, further inhibiting the shuttle effect. Consequently, the P 4 Se 6 S 40 cathode delivers high capacity and excellent capacity retention with even a high loading of 10.5 mg cm -2 which far surpasses the requirement for commercial applications. This article is protected by copyright. All rights reserved.
Keyphrases
  • ion batteries
  • solid state
  • reduced graphene oxide
  • gold nanoparticles
  • mass spectrometry
  • liquid chromatography
  • tandem mass spectrometry
  • electron transfer