B. R. Yates scite author profile

Nanostructured ion beam-modified Ge electrodes fabricated directly on Ni current collector substrates were found to exhibit excellent specific capacities during electrochemical cycling in half-cell configuration with Li metal for a wide range of cycling rates. Structural characterization revealed that the nanostructured electrodes lose porosity during cycling but maintain excellent electrical contact with the metallic current collector substrate. These results suggest that nanostructured Ge electrodes have great promise for use as high performance Li ion battery anodes. V

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Insights for void formation in ion-implanted Ge

Darby

Yates

Rudawski

et al. 2011

Thin Solid Films

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Ion beam-mixed Ge electrodes for high capacity Li rechargeable batteries

Rudawski

Yates

Holzworth

et al. 2013

Journal of Power Sources

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Substrate orientation dependence on the solid phase epitaxial growth rate of Ge

Darby

Yates

Martín-Bragado

et al. 2013

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The solid phase epitaxial growth process has been studied at 330 C by transmission electron microscopy for Ge wafers polished at 10-15 increments from the [001] to [011] orientations. The velocity showed a strong dependence on substrate orientation with the [001] direction displaying a velocity 16 times greater than the [111] direction. A lattice kinetic Monte Carlo model was used to simulate solid phase epitaxial growth (SPEG) rates at different orientations, and simulations compared well with experimental results. Cross sectional transmission electron microscopy and plan view transmission electron microscopy revealed stacking fault and twin defect formation in the [111] orientation where all other orientations showed only hairpin dislocations. The twin defects formed from Ge SPEG were comparatively less dense than what has previously been reported for Si, which gave rise to higher normalized velocities and a constant [111] SPEG velocity for Ge. V

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Anomalous activation of shallow B+ implants in Ge

et al. 2011

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B. R. Yates

Nanostructured ion beam-modified Ge films for high capacity Li ion battery anodes

Insights for void formation in ion-implanted Ge

Ion beam-mixed Ge electrodes for high capacity Li rechargeable batteries

Substrate orientation dependence on the solid phase epitaxial growth rate of Ge

Anomalous activation of shallow B+ implants in Ge

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