Bala Haran scite author profile

A first principles-based model has been developed to simulate the capacity fade of Li-ion batteries. Incorporation of a continuous occurrence of the solvent reduction reaction during constant current and constant voltage ͑CC-CV͒ charging explains the capacity fade of the battery. The effect of parameters such as end of charge voltage and depth of discharge, the film resistance, the exchange current density, and the over voltage of the parasitic reaction on the capacity fade and battery performance were studied qualitatively. The parameters that were updated for every cycle as a result of the side reaction were state-of-charge of the electrode materials and the film resistance, both estimated at the end of CC-CV charging. The effect of rate of solvent reduction reaction and the conductivity of the film formed were also studied.

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Capacity fade study of lithium-ion batteries cycled at high discharge rates

Ning

Haran

Popov

2003

Journal of Power Sources

552

334

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Mathematical modeling of the capacity fade of Li-ion cells

Ramadass

Haran

White

et al. 2003

Journal of Power Sources

393

251

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Capacity fade of Sony 18650 cells cycled at elevated temperatures

Ramadass¹,

Haran²,

White³

et al. 2002

Journal of Power Sources

389

203

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Studies on capacity fade of lithium-ion batteries

Zhang

Haran

Durairajan

et al. 2000

Journal of Power Sources

273

172

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Bala Haran

Development of First Principles Capacity Fade Model for Li-Ion Cells

Capacity fade study of lithium-ion batteries cycled at high discharge rates

Mathematical modeling of the capacity fade of Li-ion cells

Capacity fade of Sony 18650 cells cycled at elevated temperatures

Studies on capacity fade of lithium-ion batteries

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