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Thermal runaway of Lithium-ion batteries employing LiN(SO2F)2-based concentrated electrolytes.

Junxian HouLanguang LuLi WangAtsushi OhmaDongsheng RenXuning FengYan LiYalun LiIssei OotaniXuebing HanWeining RenXiangming HeYoshiaki NittaMinggao Ouyang
Published in: Nature communications (2020)
Concentrated electrolytes usually demonstrate good electrochemical performance and thermal stability, and are also supposed to be promising when it comes to improving the safety of lithium-ion batteries due to their low flammability. Here, we show that LiN(SO2F)2-based concentrated electrolytes are incapable of solving the safety issues of lithium-ion batteries. To illustrate, a mechanism based on battery material and characterizations reveals that the tremendous heat in lithium-ion batteries is released due to the reaction between the lithiated graphite and LiN(SO2F)2 triggered thermal runaway of batteries, even if the concentrated electrolyte is non-flammable or low-flammable. Generally, the flammability of an electrolyte represents its behaviors when oxidized by oxygen, while it is the electrolyte reduction that triggers the chain of exothermic reactions in a battery. Thus, this study lights the way to a deeper understanding of the thermal runaway mechanism in batteries as well as the design philosophy of electrolytes for safer lithium-ion batteries.
Keyphrases
  • solid state
  • ionic liquid
  • ion batteries
  • gold nanoparticles