Mareike Wolter scite author profile

Increasing the fast charging capabilities and the driving range of electric vehicles are major goals in Li‐ion battery research to accelerate mass market adoption and reduce greenhouse gas emissions. This requires a fundamental understanding of the performance limiting factors to enable a knowledge‐based optimization of materials, electrode design and cell architectures. Herein, electrochemical fundamentals and recent insights concerning rate performance limitations of Li‐ion batteries at the electrode level are reviewed and discussed from charge and mass transport perspectives. The application of straightforward analytical and semi‐empirical models is highlighted in view of understanding specific performance limiting factors of electrodes for Li‐ion batteries based on experimental investigations. The summarized insights are discussed regarding promising improvement strategies to approach the practical limits of liquid electrolyte‐based Li‐ion batteries.

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Polythiophene — O3 surface reactions studied by XPS

Heeg

Kramer

Wolter

et al. 2001

Applied Surface Science

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Semi-empirical master curve concept describing the rate capability of lithium insertion electrodes

Heubner

Seeba

Liebmann

et al. 2018

Journal of Power Sources

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Mareike Wolter

Understanding thickness and porosity effects on the electrochemical performance of LiNi0.6Co0.2Mn0.2O2-based cathodes for high energy Li-ion batteries

Synthesis and sintering of Li1.3Al0.3Ti1.7(PO4)3 (LATP) electrolyte for ceramics with improved Li+ conductivity

Recent Insights into Rate Performance Limitations of Li‐ion Batteries

Polythiophene — O3 surface reactions studied by XPS

Semi-empirical master curve concept describing the rate capability of lithium insertion electrodes

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