Lithium Plating at the Cell Edge Induced by Anode Overhang during Cycling in Lithium-Ion Batteries: Part I. Modeling and Mechanism

Roth, Thomas; Frank, Alexander; Oehler, Fabian; Graule, Andreas; Kücher, Simon; Jossen, Andreas

doi:10.1149/1945-7111/ad4a12

J. Electrochem. Soc.

2024

DOI: 10.1149/1945-7111/ad4a12

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Lithium Plating at the Cell Edge Induced by Anode Overhang during Cycling in Lithium-Ion Batteries: Part I. Modeling and Mechanism

Thomas Roth,

Alexander Frank,

Fabian Oehler

et al.

Abstract: The anode overhang is usually cited to prevent lithium plating at the cell edges of lithium-ion batteries. Still, numerous reports in the literature show lithium plating at the cell edge, which is typically referred to as edge plating. Edge plating is often attributed to inhomogeneous lithium distribution, thermal gradients, or pressure-dependent effects. This work presents an easy-to-implement two-dimensional electrochemical model demonstrating inhomogeneous lithiation induced by the anode overhang, which can… Show more

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Cited by 3 publications

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Mechanism of lithium plating and stripping in lithium-ion batteries induced by overhang failure defects

Huang,

Lai,

Han

et al. 2024

Cell Reports Physical Science

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Mechanism of lithium plating and stripping in lithium-ion batteries induced by overhang failure defects

Huang,

Lai,

Han

et al. 2024

Cell Reports Physical Science

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Electrolyte motion induced salt inhomogeneity – a novel aging mechanism in large-format lithium-ion cells

Solchenbach,

Tacconis,

Gomez Martin

et al. 2024

Energy Environ. Sci.

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Self-Discharge and Calendar Aging Behavior of Li-Ion and Na-Ion Cells

Streck,

Roth,

Bosch

et al. 2024

J. Electrochem. Soc.

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The calendar aging and self-discharge behavior of Na-Ion cells containing a layered oxide NaNi1/3Fe1/3Mn1/3 (NFM) cathode were investigated and compared to two Li-Ion cell chemistries, G/LiFePO4 (LFP) and SiG/LiNi0.8Mn0.1Co0.1O2 (NMC811). The self-discharge measurements were performed via voltage hold experiments at different states of charge (10%, 40%, 50%, 70%, 90%, and 100%) and temperatures (25°C, 40°C, and 55°C). A high-precision coulometry analysis was conducted to investigate the coulombic efficiency (CE), differential voltage analysis (DVA), and end-point slippage. The results show that the Na-Ion cells present a similar self-discharge behavior to the NMC811 Li-Ion cells. In addition, via CE and end-point slippage analysis, strong reversible reactions were observed for the Na-Ion cells. Despite the poor CE values, the cells presented a low capacity loss. Post-mortem analysis showed sodium plating on the edges of all the SOCs investigated. The LFP results presented mainly calendar losses from lithium inventory loss with almost no cathode-related degradation. At high SOCs, both transition metal cathodes, NMC811 Li-Ion and NFM Na-Ion, exhibited more cathode-related processes dominating the self-discharge current and presumably improving the capacity retention due to electrolyte oxidation. Finally, the Na-Ion cells showed anode overhang equalization effects like Li-Ion cells.

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Lithium Plating at the Cell Edge Induced by Anode Overhang during Cycling in Lithium-Ion Batteries: Part I. Modeling and Mechanism

Cited by 3 publications

References 74 publications

Mechanism of lithium plating and stripping in lithium-ion batteries induced by overhang failure defects

Mechanism of lithium plating and stripping in lithium-ion batteries induced by overhang failure defects

Electrolyte motion induced salt inhomogeneity – a novel aging mechanism in large-format lithium-ion cells

Self-Discharge and Calendar Aging Behavior of Li-Ion and Na-Ion Cells

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