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Spray-Printed Flexible Li 2 S Cathode with Inorganic Ion-Conductive Binder Nano-Li 3 PS 4 .

Bo FanYuexin FangBai XueQixing WuZhongkuan LuoXiang-Hua ZhangLaurent CalvezLilin Wu
Published in: ACS applied materials & interfaces (2024)
Flexible solid-state batteries fabricated by printing techniques are promising integrated power supplies for miniaturized and customized electronic devices. While typically these batteries use polymer solid electrolytes, a flexible Li 2 S cathode with sulfide solid electrolyte is spray-printed in this work, by using solvated Li 3 PS 4 nanoparticles as inorganic ion-conductive binder. This benefits from a novel low-temperature-sintering property of these nanoparticles, which can be pressure-free densified, along with the desolvation process, and thus bind the cathode at 250 °C. The battery can be stably charged and discharged for 300 cycles with no stacking pressure, and the capacity maintains at 840 mA h g Li2 S -1 . We believe this low-temperature-sintering phenomenon of solid electrolyte nanoparticles will open a new path toward the application of sulfide solid electrolytes in printed solid-state batteries.
Keyphrases
  • solid state
  • ion batteries
  • reduced graphene oxide
  • low cost
  • minimally invasive
  • gold nanoparticles