Taper-free and kinked germanium nanowires grown on silicon via purging and the two-temperature process

Jung Hyuk Kim; So Ra Moon; Yong Kim; Zhi Gang Chen; Jin Zou; Duk Yong Choi; Hannah J. Joyce; Qiang Gao; H. Hoe Tan; Chennupati Jagadish

doi:10.1088/0957-4484/23/11/115603

Taper-free and kinked germanium nanowires grown on silicon via purging and the two-temperature process

Jung Hyuk Kim^*, So Ra Moon, Yong Kim, Zhi Gang Chen, Jin Zou, Duk Yong Choi, Hannah J. Joyce, Qiang Gao, H. Hoe Tan, Chennupati Jagadish

^*Corresponding author for this work

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

15 Citations (Scopus)

Abstract

We investigate the growth procedures for achieving taper-free and kinked germanium nanowires epitaxially grown on silicon substrates by chemical vapor deposition. Singly and multiply kinked germanium nanowires consisting of 111 segments were formed by employing a reactant gas purging process. Unlike non-epitaxial kinked nanowires, a two-temperature process is necessary to maintain the taper-free nature of segments in our kinked germanium nanowires on silicon. As an application, nanobridges formed between (111) side walls of V-grooved (100) silicon substrates have been demonstrated.

Original language	English
Article number	115603
Journal	Nanotechnology
Volume	23
Issue number	11
DOIs	https://doi.org/10.1088/0957-4484/23/11/115603
Publication status	Published - 23 Mar 2012

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title = "Taper-free and kinked germanium nanowires grown on silicon via purging and the two-temperature process",

abstract = "We investigate the growth procedures for achieving taper-free and kinked germanium nanowires epitaxially grown on silicon substrates by chemical vapor deposition. Singly and multiply kinked germanium nanowires consisting of 111 segments were formed by employing a reactant gas purging process. Unlike non-epitaxial kinked nanowires, a two-temperature process is necessary to maintain the taper-free nature of segments in our kinked germanium nanowires on silicon. As an application, nanobridges formed between (111) side walls of V-grooved (100) silicon substrates have been demonstrated.",

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AU - Kim, Jung Hyuk

AU - Moon, So Ra

AU - Kim, Yong

AU - Chen, Zhi Gang

AU - Zou, Jin

AU - Choi, Duk Yong

AU - Joyce, Hannah J.

AU - Gao, Qiang

AU - Tan, H. Hoe

AU - Jagadish, Chennupati

PY - 2012/3/23

Y1 - 2012/3/23

N2 - We investigate the growth procedures for achieving taper-free and kinked germanium nanowires epitaxially grown on silicon substrates by chemical vapor deposition. Singly and multiply kinked germanium nanowires consisting of 111 segments were formed by employing a reactant gas purging process. Unlike non-epitaxial kinked nanowires, a two-temperature process is necessary to maintain the taper-free nature of segments in our kinked germanium nanowires on silicon. As an application, nanobridges formed between (111) side walls of V-grooved (100) silicon substrates have been demonstrated.

AB - We investigate the growth procedures for achieving taper-free and kinked germanium nanowires epitaxially grown on silicon substrates by chemical vapor deposition. Singly and multiply kinked germanium nanowires consisting of 111 segments were formed by employing a reactant gas purging process. Unlike non-epitaxial kinked nanowires, a two-temperature process is necessary to maintain the taper-free nature of segments in our kinked germanium nanowires on silicon. As an application, nanobridges formed between (111) side walls of V-grooved (100) silicon substrates have been demonstrated.

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VL - 23

JO - Nanotechnology

JF - Nanotechnology

IS - 11

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ER -

Taper-free and kinked germanium nanowires grown on silicon via purging and the two-temperature process

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