Author
Listed:
- Feng Wang
(Brookhaven National Laboratory)
- Hui-Chia Yu
(University of Michigan)
- Min-Hua Chen
(University of Michigan)
- Lijun Wu
(Brookhaven National Laboratory)
- Nathalie Pereira
(Rutgers University)
- Katsuyo Thornton
(University of Michigan)
- Anton Van der Ven
(University of Michigan)
- Yimei Zhu
(Brookhaven National Laboratory)
- Glenn G. Amatucci
(Rutgers University)
- Jason Graetz
(Brookhaven National Laboratory)
Abstract
Expectations for the next generation of lithium batteries include greater energy and power densities along with a substantial increase in both calendar and cycle life. Developing new materials to meet these goals requires a better understanding of how electrodes function by tracking physical and chemical changes of active components in a working electrode. Here we develop a new, simple in-situ electrochemical cell for the transmission electron microscope and use it to track lithium transport and conversion in FeF2 nanoparticles by nanoscale imaging, diffraction and spectroscopy. In this system, lithium conversion is initiated at the surface, sweeping rapidly across the FeF2 particles, followed by a gradual phase transformation in the bulk, resulting in 1–3 nm iron crystallites mixed with amorphous LiF. The real-time imaging reveals a surprisingly fast conversion process in individual particles (complete in a few minutes), with a morphological evolution resembling spinodal decomposition. This work provides new insights into the inter- and intra-particle lithium transport and kinetics of lithium conversion reactions, and may help to pave the way to develop high-energy conversion electrodes for lithium-ion batteries.
Suggested Citation
Feng Wang & Hui-Chia Yu & Min-Hua Chen & Lijun Wu & Nathalie Pereira & Katsuyo Thornton & Anton Van der Ven & Yimei Zhu & Glenn G. Amatucci & Jason Graetz, 2012.
"Tracking lithium transport and electrochemical reactions in nanoparticles,"
Nature Communications, Nature, vol. 3(1), pages 1-8, January.
Handle:
RePEc:nat:natcom:v:3:y:2012:i:1:d:10.1038_ncomms2185
DOI: 10.1038/ncomms2185
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