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1 article(s) from Nakamura, Ryusuke

The Kirkendall effect and nanoscience: hollow nanospheres and nanotubes

Abdel-Aziz El Mel,
Ryusuke Nakamura and
Carla Bittencourt

Beilstein J. Nanotechnol. 2015, 6, 1348–1361, doi:10.3762/bjnano.6.139

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Figure 1: Atomic diffusion based on (a) the direct exchange mechanism, (b) the ring mechanism and (c) the vac...

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Figure 2: Schematic illustration describing the different stages occurring during the formation of voids at t...

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Figure 3: Morphological evolution of CoSe hollow nanocrystals as a function of the selenization time. Figure ...

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Figure 4: A scheme describing the Kirkendall-induced hollowing process of nanospheres consisting of a core/sh...

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Figure 5: TEM micrographs and corresponding schemes of 26 nm nickel nanospheres oxidized in air at 300 °C for...

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Figure 6: TEM micrographs showing the conversion stages of the CdS shell during the sulfidation of Cd nanosph...

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Figure 7: Sequential TEM micrographs recorded in situ to monitor the dynamic transformation of bismuth nanosp...

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Figure 8: TEM (a) and high-resolution TEM (b) micrographs showing the Kirkendall voids formed at a ZnO–Al₂O₃ ...

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Figure 9: TEM micrographs and corresponding illustrations showing the chronological evolution of a Cu nanowir...

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Figure 10: (a,b) SEM micrographs showing the high fidelity of copper oxide nanotubes prepared on nanograted si...

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Figure 11: Representations of the different morphologies that can be obtained by thermal oxidation of nickel n...

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Figure 12: TEM micrograph of (a) thick (≈250 nm in diameter) and (c) thin (≈140 nm) nickel nanowires after the...

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Figure 13: TEM micrographs of ZnO/Al₂O₃ core/shell oscillatory nanowires before (a) and after (b) annealing at...

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Figure 14: False-color TEM micrographs of some possible periodic Cu nanostructures that can be sculpted using ...

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Review

Published 18 Jun 2015

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