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Large Local Currents in a Lithium-Ion Battery during Rest after Fast Charging.

Alec S HoDilworth Y ParkinsonStephen E TraskAndrew N JansenNitash P Balsara
Published in: ACS nano (2023)
Increasing electric vehicle (EV) adoption requires lithium-ion batteries that can be charged quickly and safely. Some EV batteries have caught on fire despite being neither charged nor discharged. While the lithium that plates on graphite during fast charging affects battery safety, so do the internal ionic currents that can occur when the battery is at rest after charging. These currents are difficult to quantify; the external current that can readily be measured is zero. Here we study a graphite electrode at rest after 6C fast charging using operando X-ray microtomography. We quantify spatially resolved current density distributions that originate at plated lithium and end in underlithiated graphite particles. The average current densities decrease from 1.5 to 0.5 mA cm -2 in about 20 min after charging is stopped. Surprisingly, the range of the stripping current density is independent of time, with outliers above 20 mA cm -2 . The persistence of outliers provides a clue as to the origin of catastrophic failure in batteries at rest.
Keyphrases
  • solid state
  • high resolution
  • magnetic resonance imaging