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Fluorinated Amide-Based Electrolytes Induce a Sustained Low-Charging Voltage Plateau under Conditions Verifying the Feasibility of Achieving 500 Wh kg -1 Class Li-O 2 Batteries.

Kiho NishiokaMizuki TanakaTerumi GotoRonja HaasAnja HenssShota AzumaMorihiro SaitoShoichi MatsudaWei YuHirotomo NishiharaHayato FujimotoMamoru TobisuYoshiharu MukouyamaShuji Nakanishi
Published in: ACS applied materials & interfaces (2024)
Although lithium-oxygen batteries (LOBs) hold the promise of high gravimetric energy density, this potential is hindered by high charging voltages. To ensure that the charging voltage remains low, it is crucial to generate discharge products that can be easily decomposed during the successive charging process. In this study, we discovered that the use of amide-based electrolyte solvents containing a fluorinated moiety can notably establish a sustained voltage plateau at low-charging voltages at around 3.5 V. This occurs under conditions that can verify the feasibility of achieving a benchmark energy density value of 500 Wh kg -1 . Notably, the achievement of the low-voltage plateau was accomplished solely by relying on the intrinsic properties of the electrolyte solvent. Indeed, synchrotron X-ray diffraction measurements have shown that the use of fluorine-containing amide-based electrolyte solvents results in the formation of highly decomposable discharge products, such as amorphous and Li-deficient lithium peroxides.
Keyphrases
  • solid state
  • ionic liquid
  • ion batteries
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  • magnetic resonance imaging
  • magnetic resonance
  • machine learning
  • big data
  • human health
  • deep learning
  • solar cells