Lithium Diffusion in Graphitic Carbon
Massachusetts Institute of Technology · Lawrence Berkeley National Laboratory · +4 more institutions
Abstract
Graphitic carbon is currently considered the state-of-the-art material for the negative electrode in lithium ion cells, mainly due to its high reversibility and low operating potential. However, carbon anodes exhibit mediocre charge/discharge rate performance, which contributes to severe transport-induced surface structural damage upon prolonged cycling and limits the lifetime of the cell. Lithium bulk diffusion in graphitic carbon is not yet completely understood, partly due to the complexity of measuring bulk transport properties in finite-sized nonisotropic particles. To solve this problem for graphite, we use the Devanathan−Stachurski electrochemical methodology combined with ab initio computations to…
Citation impact
- FWCI
- 23.24
- Percentile
- 100%
- References
- 39
Authors
9- KAKristin A. PerssonCorresponding
Massachusetts Institute of Technology, Lawrence Berkeley National Laboratory
- VAVijay A. Sethuraman
Lawrence Berkeley National Laboratory, Brown University
- LJLaurence J. Hardwick
Lawrence Berkeley National Laboratory
- YHYoyo Hinuma
University of California, San Diego, Massachusetts Institute of Technology, Atkins (United States)
- YSYing Shirley Meng
Massachusetts Institute of Technology, Atkins (United States), University of California, San Diego
Topics & keywords
- Materials science
- Lithium (medication)
- Highly oriented pyrolytic graphite
- Graphene
- Graphite
- Diffusion
- Carbon fibers
- Anode