Abstract
A complete understanding of dendrite growth under realistic conditions is an ongoing challenge in creating safe and efficient lithium batteries. While advancements have been made in dendrite suppression in isolated tests, the complex interaction between the components, i.e. the anode and the battery separator, of the battery system is still unclear. These components behave differently under charging and discharging and to realize their coupled effect, they must be studied together. Through computational modeling, the effect of both the separator and battery cycling are investigated at the anode-electrolyte interface. The model resolves the complex multiphysics of charge and discharge at the mesoscale, and considers both idealized and realistic porous separator microstructures.
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