745
An Alternative Electrolyte Based on Sebaconitrile for Thermally-Stable Lithium-Ion Batteries

Friday, 13 June 2014
Cernobbio Wing (Villa Erba)
S. J. Cho, K. H. Choi, J. S. Park, and S. Y. Lee (Department of Energy Engineering, UNIST)
Volatile, flammable carbonate-based liquid electrolytes, although they show good electrochemical performance suitable for practical use, have posed a critical threat to safeties of lithium-ion batteries. This safety concern becomes more serious in newly-emerging application fields such as (hybrid) electric vehicles and grid scale energy storage systems, which employ large-sized, high-capacity lithium-ion batteries. One promising solution to address the liquid electrolyte-induced safety issues is to replace with nonflammable, thermally-stable electrolytes. Here, we demonstrate a new electrolyte system composed of 1M LiTFSI (lithium bis-trifluoromethanesulphonimide) in sebaconitrile (SBN). The SBN is featured with high boiling temperature (~ 375 oC) and nonflammability, which are expected to enable significant improvements in high-temperature performance of SBN-based electrolytes. Based on the characterization of thermal/electrochemical properties of SBN-based electrolytes, their application to lithium-ion batteries is explored as a function of operating temperature. Notably, the cell incorporating SBN-based electrolytes show stable cycling performance at 80 oC. This advantageous effect of SBN-based electrolytes on thermal stability of cell, in comparison to conventional carbonate-based liquid electrolytes, is discussed by scrutinizing the variation in AC impedance of cells and ionic conductivity of the electrolytes as a function of temperature.