Dendrites and Pits: Untangling the Complex Behavior of Lithium Metal Anodes through Operando Video Microscopy
University of Michigan · Pacific Northwest National Laboratory
Abstract
Enabling ultra-high energy density rechargeable Li batteries would have widespread impact on society. However the critical challenges of Li metal anodes (most notably cycle life and safety) remain unsolved. This is attributed to the evolution of Li metal morphology during cycling, which leads to dendrite growth and surface pitting. Herein, we present a comprehensive understanding of the voltage variations observed during Li metal cycling, which is directly correlated to morphology evolution through the use of operando video microscopy. A custom-designed visualization cell was developed to enable operando synchronized observation of Li metal electrode morphology and electrochemical behavior during cycling. A…
Citation impact
- FWCI
- 34.59
- Percentile
- 100%
- References
- 37
Authors
7Topics & keywords
- Overpotential
- Nucleation
- Dendrite (mathematics)
- Electrode
- Anode
- Materials science
- Electrochemistry
- Lithium metal
- Responsible consumption and production