Nowadays, the demand for high energy density, fast-charging and wide-temperature range lithium-ion batteries has increased significantly. The Solid Electrolyte Interphase (SEI) protecting layer, formed at the interface between the graphite anode and the electrolyte is a key parameter for fast kinetics and wide temperature operation, especially to enable fast charge of cells including graphite anodes. In this work, fluorosulfonyl isocyanate (FI) is used as a novel SEI film forming electrolyte additive for graphite anode. Due to its high reduction potential (above 2.8 V vs. Li+/Li), FI is reduced prior to the carbonate-based electrolyte, yielding a conductive SEI on the surface of the graphite. The SEI is made of a thick and protective inorga...
International audienceThis chapter introduces the role of fluorinated and nonfluorinated additives i...
The performance of lithium ion batteries rapidly falls at lower temperatures due to decreasing condu...
An investigation of novel electrolyte formulations to improve low temperature performance of Li/grap...
Nowadays, the demand for high energy density, fast-charging and wide-temperature range lithium-ion b...
Nowadays, the demand for high energy density, fast-charging and wide-temperature range lithium-ion b...
Nowadays, the demand for high energy density, fast-charging and wide-temperature range lithium-ion b...
Nowadays, the demand for high energy density, fast-charging and wide-temperature range lithium-ion b...
Nowadays, the demand for high energy density, fast-charging and wide-temperature range lithium-ion b...
Improving the graphite/electrolyte interface in lithium-ion battery for fast charging and low temper...
We investigated the Solid Electrolyte Interphase (SEI) formed onto graphite using adiponitrile/dimet...
Recently, lithium-ion batteries (LIBs) have gained recognition as reliable power sources for transpo...
Commercial carbonate electrolytes with poor oxidation stability and high flammability limit the oper...
Commercial carbonate electrolytes with poor oxidation stability and high flammability limit the oper...
The ability for Li-ion batteries to operate at low temperatures is extremely critical for the develo...
Ionic liquid electrolytes (ILEs) possess nonflammability, low volatility, good thermal stability, an...
International audienceThis chapter introduces the role of fluorinated and nonfluorinated additives i...
The performance of lithium ion batteries rapidly falls at lower temperatures due to decreasing condu...
An investigation of novel electrolyte formulations to improve low temperature performance of Li/grap...
Nowadays, the demand for high energy density, fast-charging and wide-temperature range lithium-ion b...
Nowadays, the demand for high energy density, fast-charging and wide-temperature range lithium-ion b...
Nowadays, the demand for high energy density, fast-charging and wide-temperature range lithium-ion b...
Nowadays, the demand for high energy density, fast-charging and wide-temperature range lithium-ion b...
Nowadays, the demand for high energy density, fast-charging and wide-temperature range lithium-ion b...
Improving the graphite/electrolyte interface in lithium-ion battery for fast charging and low temper...
We investigated the Solid Electrolyte Interphase (SEI) formed onto graphite using adiponitrile/dimet...
Recently, lithium-ion batteries (LIBs) have gained recognition as reliable power sources for transpo...
Commercial carbonate electrolytes with poor oxidation stability and high flammability limit the oper...
Commercial carbonate electrolytes with poor oxidation stability and high flammability limit the oper...
The ability for Li-ion batteries to operate at low temperatures is extremely critical for the develo...
Ionic liquid electrolytes (ILEs) possess nonflammability, low volatility, good thermal stability, an...
International audienceThis chapter introduces the role of fluorinated and nonfluorinated additives i...
The performance of lithium ion batteries rapidly falls at lower temperatures due to decreasing condu...
An investigation of novel electrolyte formulations to improve low temperature performance of Li/grap...