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SEI Growth Impacts of Lamination, Formation and Cycling in Lithium Ion Batteries

by Revay, Zsolt , Frankenberger, Martin , Gilles, Ralph , Dinter, Alexander , Gernhäuser, Roman , Märkisch, Bastian , Werner, Lukas , Trunk, Markus , Seidlmayer, Stefan , Dittloff, Johannes , Pettinger, Karl-Heinz

in Aging / Anodes / Cycles / Decomposition / Depth profiling / Electrochemical impedance spectroscopy / Electrodes / Electrolytes / Electrolytic cells / formation / Graphite / lamination / lifetime / Lithium / Lithium-ion batteries / lithium-ion battery / Neutron depth profiling / Rechargeable batteries / Separators / Solid electrolytes / solid-electrolyte-interphase / Surface resistance / Trends

2020

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SEI Growth Impacts of Lamination, Formation and Cycling in Lithium Ion Batteries

2020

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SEI Growth Impacts of Lamination, Formation and Cycling in Lithium Ion Batteries

2020

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Journal Article

SEI Growth Impacts of Lamination, Formation and Cycling in Lithium Ion Batteries

Revay, Zsolt,

Frankenberger, Martin,

Gilles, Ralph,

Dinter, Alexander,

Gernhäuser, Roman,

Märkisch, Bastian,

Werner, Lukas,

Trunk, Markus,

Seidlmayer, Stefan,

Dittloff, Johannes,

Pettinger, Karl-Heinz

2020

Overview

The accumulation of solid electrolyte interphases (SEI) in graphite anodes related to elevated formation rates (0.1C, 1C and 2C), cycling rates (1C and 2C), and electrode-separator lamination is investigated. As shown previously, the lamination technique is beneficial for the capacity aging in graphite-LiNi1/3Mn1/3Co1/3O2 cells. Here, surface resistance growth phenomena are quantified using electrochemical impedance spectroscopy (EIS). The graphite anodes were extracted from the graphite NMC cells in their fully discharged state and irreversible accumulations of lithium in the SEI are revealed using neutron depth profiling (NDP). In this post-mortem study, NDP reveals uniform lithium accumulations as a function of depth with lithium situated at the surface of the graphite particles thus forming the SEI. The SEI was found to grow logarithmically with cycle number starting with the main formation in the initial cycles. Furthermore, the EIS measurements indicate that benefits from lamination arise from surface resistance growth phenomena aside from SEI growth in superior anode fractions.

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Publisher

MDPI AG

Subject

Aging

/ Anodes

/ Cycles

/ Decomposition

/ Depth profiling

/ Electrochemical impedance spectroscopy

/ Electrodes