Published September 2003
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Journal Article
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Highly Reversible Lithium Storage in Nanostructured Silicon
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Abstract
Anode materials of nanostructured silicon have been prepared by physical vapor deposition and characterized using electrochemical methods. The electrodes were prepared in thin-film form as nanocrystalline particles (12 nm mean diameter) and as continuous amorphous thin films (100 nm thick). The nanocrystalline silicon exhibited specific capacities of around 1100 mAh/g with a 50% capacity retention after 50 cycles. The amorphous thin-film electrodes exhibited initial capacities of 3500 mAh/g with a stable capacity of 2000 mAh/g over 50 cycles. We suggest that the nanoscale dimensions of the silicon circumvents conventional mechanisms of mechanical deterioration, permitting good cycle life.
Additional Information
© 2003 The Electrochemical Society. Submitted: February 7, 2003; revised: April 19, 2003. Available electronically July 3, 2003. This work was supported by the Department of Energy through Basic Energy Sciences grant no. DE-FG03-00ER15035. We thank Crane & Co., Inc. for providing the fiberglass used as a separator in the electrochemical cells. California Institute of Technology assisted in meeting the publication costs of this article.Attached Files
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Additional details
Identifiers
- Eprint ID
- 3002
- Resolver ID
- CaltechAUTHORS:GRAessl03
Funding
- Department of Energy (DOE)
- DE-FG03-00ER15035
- Caltech
Dates
- Created
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2006-05-10Created from EPrint's datestamp field
- Updated
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2021-11-08Created from EPrint's last_modified field