Litcius/Paper detail

Rate-Dependent Aging Resulting from Fast Charging of Li-Ion Cells

Abhi Raj, Marco‐Tulio F. Rodrigues, Daniel P. Abraham

2020Journal of The Electrochemical Society44 citationsDOIOpen Access PDF

Abstract

The mass electrification of personal and service vehicles is reliant on the ability of battery packs to undergo extreme fast recharging. A central challenge is that the repeated exposure to high currents can trigger and/or accelerate mechanisms of performance degradation, such as lithium deposition, mechanical damage of active material particles, and impedance rise. Here, we investigate whether constraining high-rate charging to limited state-of-charge (SOC) ranges can mitigate these aging processes. Our experiments map the boundaries of lithium plating conditions, and also indicate that permanent losses of electrode capacity appear to be a function of cycle number, but not charging rate. Interestingly, we show that impedance rise appears to depend on charging rate alone, and not on the amount of charge passed at each cycle. This observation suggests that limiting fast charging to a narrow SOC range would only delay cell aging, but not fully prevent it from happening. We identify oxide-particle cracking as the likely mechanism for this impedance rise, suggesting that particle and electrode design are essential to enable fast charging. The findings of this work can inform the development of fast-charging protocols that are less damaging to cell health.

Topics & Concepts

State of chargeElectrodeElectrical impedanceLithium (medication)Battery (electricity)Materials scienceRange (aeronautics)Lithium-ion batteryTrickle chargingChemistryElectrical engineeringComposite materialPhysicsEngineeringMedicinePower (physics)Physical chemistryEndocrinologyQuantum mechanicsAdvanced Battery Technologies ResearchAdvancements in Battery MaterialsAdvanced Battery Materials and Technologies
Rate-Dependent Aging Resulting from Fast Charging of Li-Ion Cells | Litcius