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Abstract
Li-ion battery fast charging is critical to reduce
electric vehicle ‘range anxiety’ and enable emerging technologies such as aerial
drones and high-performance portable electronics. Fast charging is primarily limited by lithium
plating on graphite, which can cause capacity fade and catastrophic cell
shorting. The ability to detect the
initial onset of lithium plating using easily accessible battery management
system parameters (current, voltage, and capacity) would dramatically improve
the safety of fast charging protocols. In
this work, we highlight the application of a differential open-circuit voltage
analysis (dOCV) to detect when Li plating first begins during room temperature
fast charging. We quantify the Li detection
limit of the technique to be approximately 4 mAh plated Li per gram graphite,
showing that this method has high sensitivity and significant commercial
promise.
