Exfoliation and reassembly of cobalt oxide nanosheets into a reversible lithium-ion battery cathode.
An exfoliation-reassembly-activation (ERA) approach to lithium-ion battery cathode fabrication is introduced, demonstrating that inactive HCoO(2) powder can be converted into a reversible Li(1-x) H(x) CoO(2) thin-film cathode. This strategy circumvents the inherent difficulties often associated with the powder processing of the layered solids typically employed as cathode materials. The delamination of HCoO(2) via a combination of chemical and mechanical exfoliation generates a highly processable aqueous dispersion of [CoO(2) ](-) nanosheets that is critical to the ERA approach. Following vacuum-assisted self-assembly to yield a thin-film cathode and ion exchange to activate this material, the generated cathodes exhibit excellent cyclability and discharge capacities approaching that of low-temperature-prepared LiCoO(2) (~83 mAh g(-1) ), with this good electrochemical performance attributable to the high degree of order in the reassembled cathode.
Duke Scholars
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- Oxides
- Nanotechnology
- Nanostructures
- Nanoscience & Nanotechnology
- Lithium
- Electrodes
- Electrochemistry
- Electric Power Supplies
- Cobalt
Citation
Published In
DOI
EISSN
ISSN
Publication Date
Volume
Issue
Start / End Page
Related Subject Headings
- Oxides
- Nanotechnology
- Nanostructures
- Nanoscience & Nanotechnology
- Lithium
- Electrodes
- Electrochemistry
- Electric Power Supplies
- Cobalt