Abstract
We have prepared intermetallic phases and mixtures of such phases in the Sn‐Fe‐C Gibbs' triangle by mechanical alloying methods or by direct melting. This third paper in a three‐part series focuses on composites of and made by mechanical alloying of elemental powders. The and grains which comprise the powder particles were about 10 nm in size. Seven samples of composition , , , , , , and were studied. Using in situ X‐ray diffraction and electrochemical methods, the reversible reaction of Li with these materials was studied. The in these materials is an active phase, that is, it reacts completely to form and Fe, and the is an inactive phase, that is, it reacts with very little Li. Thus, since there is a two‐phase tie line connecting an inactive and an active phase in the Sn‐Fe‐C ternary phase diagram, and the fact that mechanical alloying generally produces materials with very small grains, it is possible to produce composites with controlled amounts of active and inactive phases. The best material we have made gives a volumetric capacity of about , has an average voltage near 0.4 V vs. Li metal, and shows stable cycling for over 80 charge‐discharge cycles. Materials like this may ultimately replace graphite as the anode of choice for the Li‐ion battery. © 1999 The Electrochemical Society. All rights reserved.
Keywords
IntermetallicMaterials scienceAnodeElectrochemistryPhase (matter)GraphiteTernary operationBattery (electricity)MAX phasesPhase diagramMetalComposite materialChemical engineeringMetallurgyElectrodeChemistryPhysical chemistryCeramicThermodynamics
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Publication Info
- Year
- 1999
- Type
- article
- Volume
- 146
- Issue
- 2
- Pages
- 423-427
- Citations
- 191
- Access
- Closed
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Cite This
Ou Mao,
J. R. Dahn
(1999).
Mechanically Alloyed Sn‐Fe(‐C) Powders as Anode Materials for Li‐Ion Batteries: III. Sn2Fe : SnFe3 C Active/Inactive Composites.
Journal of The Electrochemical Society
, 146
(2)
, 423-427.
https://doi.org/10.1149/1.1391624
Identifiers
- DOI
- 10.1149/1.1391624