Fabian Ebert scite author profile

Lithium-ion battery cells consist either of a stacked or a wound configuration of a separator between two coated electrodes. The expansion of the graphite anode due to lithium intercalation, when charging, leads to a macroscopic expansion of the cell. State of the art rigid battery module bracing causes a periodic pressure build-up over a full charge/discharge cycle and therefore a compression of the battery separator. Furthermore, this results in a reduced diffusivity of the lithium-ions, which can cause lithium plating. Lithium plating is considered as the main cause of (premature) battery aging. In our paper, we present for the first time the investigation of a flexible spring-loaded cell bracing on cell aging by maintaining a nearly constant pressure. In comparison with the rigid bracing, a different aging speed can be observed in favour of the flexible bracing method

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Fabian Ebert

Quantifying Uncertainties in Reusing Lithium-Ion Batteries from Electric Vehicles

Impact of electrochemical and mechanical interactions on lithium-ion battery performance investigated by operando dilatometry

Effect of a flexible battery module bracing on cell aging

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