Regularly branched InN nanostructures: Zinc-blende nanocore and polytypic transition

Inhee Jung; Sanghwa Lee; Donggyu Shin; Hyunkyu Park; Mi Yeon Ju; Chinkyo Kim

doi:10.1107/S0021889812011545

Regularly branched InN nanostructures: Zinc-blende nanocore and polytypic transition

Inhee Jung, Sanghwa Lee, Donggyu Shin, Hyunkyu Park, Mi Yeon Ju, Chinkyo Kim

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

Regularly branched InN nanostructures were controllably grown on c-plane sapphire substrates by using hydride vapor phase epitaxy. On the basis of the crystallographic analysis of these InN tetrapods, it is proposed that (i) each tetrapod consists of four nanorods in the wurtzite phase protruding from a truncated tetrahedral nanocore in the zinc-blende phase and that (ii) branching occurs at the four {111} faces of the truncated tetrahedral nanocore. Our work suggests that the branching regularity of InN tetrapods is attributed to the polytypic transition at these four faces.

Original language	English
Pages (from-to)	503-506
Number of pages	4
Journal	Journal of Applied Crystallography
Volume	45
Issue number	3
DOIs	https://doi.org/10.1107/S0021889812011545
Publication status	Published - Jun 2012

Keywords

InN
polytypic transitions
regularly branched nanostructures
wurtzite
zinc blende

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10.1107/S0021889812011545

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abstract = "Regularly branched InN nanostructures were controllably grown on c-plane sapphire substrates by using hydride vapor phase epitaxy. On the basis of the crystallographic analysis of these InN tetrapods, it is proposed that (i) each tetrapod consists of four nanorods in the wurtzite phase protruding from a truncated tetrahedral nanocore in the zinc-blende phase and that (ii) branching occurs at the four {111} faces of the truncated tetrahedral nanocore. Our work suggests that the branching regularity of InN tetrapods is attributed to the polytypic transition at these four faces.",

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T2 - Zinc-blende nanocore and polytypic transition

AU - Jung, Inhee

AU - Lee, Sanghwa

AU - Shin, Donggyu

AU - Park, Hyunkyu

AU - Ju, Mi Yeon

AU - Kim, Chinkyo

PY - 2012/6

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N2 - Regularly branched InN nanostructures were controllably grown on c-plane sapphire substrates by using hydride vapor phase epitaxy. On the basis of the crystallographic analysis of these InN tetrapods, it is proposed that (i) each tetrapod consists of four nanorods in the wurtzite phase protruding from a truncated tetrahedral nanocore in the zinc-blende phase and that (ii) branching occurs at the four {111} faces of the truncated tetrahedral nanocore. Our work suggests that the branching regularity of InN tetrapods is attributed to the polytypic transition at these four faces.

AB - Regularly branched InN nanostructures were controllably grown on c-plane sapphire substrates by using hydride vapor phase epitaxy. On the basis of the crystallographic analysis of these InN tetrapods, it is proposed that (i) each tetrapod consists of four nanorods in the wurtzite phase protruding from a truncated tetrahedral nanocore in the zinc-blende phase and that (ii) branching occurs at the four {111} faces of the truncated tetrahedral nanocore. Our work suggests that the branching regularity of InN tetrapods is attributed to the polytypic transition at these four faces.

KW - InN

KW - polytypic transitions

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Regularly branched InN nanostructures: Zinc-blende nanocore and polytypic transition

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Keywords

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