Effects of external pressure on the performance and ageing of single-layer lithium-ion pouch cells

Effects of external pressure on the performance and ageing of single-layer lithium-ion pouch cells

The effects of external compression on the performance and ageing of NMC(1/3)/Graphite single-layer Li-ion pouch cells are investigated using a spring-loaded fixture. The influence of pressure (0.66, 0.99, 1.32, and 1.98 MPa) on impedance is characterized in fresh cells that are subsequently cycled...

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Bibliographic Details
Published in:Journal of power sources Vol. 385; pp. 18 - 26
Main Authors: Mussa, Abdilbari Shifa, Klett, Matilda, Lindbergh, Göran, Lindström, Rakel Wreland
Format: Journal Article
Language:English
Published: Elsevier B.V 01-05-2018
Subjects:
Current distribution
Lithium-ion battery
Mechanics
Non-uniform ageing
Pressure
Mechanics
Lithium-ion battery
Current distribution
Pressure
Non-uniform ageing
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Summary:The effects of external compression on the performance and ageing of NMC(1/3)/Graphite single-layer Li-ion pouch cells are investigated using a spring-loaded fixture. The influence of pressure (0.66, 0.99, 1.32, and 1.98 MPa) on impedance is characterized in fresh cells that are subsequently cycled at the given pressure levels. The aged cells are analyzed for capacity fade and impedance rise at the cell and electrode level. The effect of pressure distribution that may occur in large-format cells or in a battery pack is simulated using parallel connected cells. The results show that the kinetic and mass transport resistance increases with pressure in a fresh cell. An optimum pressure around 1.3 MPa is shown to be beneficial to reduce cyclable-lithium loss during cycling. The minor active mass losses observed in the electrodes are independent of the ageing pressure, whereas ageing pressure affects the charge transfer resistance of both NMC and graphite electrodes and the ohmic resistance of the cell. Pressure distribution induces current distribution but the enhanced current throughput at lower pressures cell does not accelerate its ageing. Conclusions from this work can explain some of the discrepancies in non-uniform ageing reported in the literature and indicate coupling between electrochemistry and mechanics. [Display omitted] •An optimum compressive pressure exists that extend the battery life.•Cyclable lithium loss is reduced at the optimum pressure.•Pressure-induced current distribution does not explain ageing in parallel connection.•High compressive pressure impedes the electrochemical kinetics and mass transport.•Results indicate coupling between electrochemistry and mechanics.
ISSN:0378-7753
1873-2755
1873-2755
DOI:10.1016/j.jpowsour.2018.03.020