Seedless growth of sub-10 nm germanium nanowires

Richard G. Hobbs; Sven Barth; Nikolay Petkov; Michaela Zirngast; Christoph Marschner; Michael A. Morris; Justin D. Holmes

doi:10.1021/ja1035368

Seedless growth of sub-10 nm germanium nanowires

Richard G. Hobbs
, Sven Barth
, Nikolay Petkov
, Michaela Zirngast
, Christoph Marschner
, Michael A. Morris
, Justin D. Holmes

School of Chemistry

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

Abstract

We report the self-seeded growth of highly crystalline Ge nanowires, with a mean diameter as small as 6 nm without the need for a metal catalyst. The nanowires, synthesized using the purpose-built precursor hexakis(trimethylsilyl) digermane, exhibit high aspect ratios (>1000) while maintaining a uniform core diameter along their length. Additionally, the nanowires are encased in an amorphous shell of material derived from the precursor, which acts to passivate their surfaces and isolates the Ge seed particles from which the nanowires grow. The diameter of the nanowires was found to depend on the synthesis temperature employed. Specifically, there is a linear relationship between the inverse radius of the nanowires and the synthesis temperature, which can be explained by a model for the size-dependent melting of simple metals.

Original language	English
Pages (from-to)	13742-13749
Number of pages	8
Journal	Journal of the American Chemical Society
Volume	132
Issue number	39
DOIs	https://doi.org/10.1021/ja1035368
Publication status	Published - 6 Oct 2010

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10.1021/ja1035368

https://hdl.handle.net/10468/6651Licence: CC BY-NC-ND

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title = "Seedless growth of sub-10 nm germanium nanowires",

abstract = "We report the self-seeded growth of highly crystalline Ge nanowires, with a mean diameter as small as 6 nm without the need for a metal catalyst. The nanowires, synthesized using the purpose-built precursor hexakis(trimethylsilyl) digermane, exhibit high aspect ratios (>1000) while maintaining a uniform core diameter along their length. Additionally, the nanowires are encased in an amorphous shell of material derived from the precursor, which acts to passivate their surfaces and isolates the Ge seed particles from which the nanowires grow. The diameter of the nanowires was found to depend on the synthesis temperature employed. Specifically, there is a linear relationship between the inverse radius of the nanowires and the synthesis temperature, which can be explained by a model for the size-dependent melting of simple metals.",

author = "Hobbs, \{Richard G.\} and Sven Barth and Nikolay Petkov and Michaela Zirngast and Christoph Marschner and Morris, \{Michael A.\} and Holmes, \{Justin D.\}",

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language = "English",

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T1 - Seedless growth of sub-10 nm germanium nanowires

AU - Hobbs, Richard G.

AU - Barth, Sven

AU - Petkov, Nikolay

AU - Zirngast, Michaela

AU - Marschner, Christoph

AU - Morris, Michael A.

AU - Holmes, Justin D.

PY - 2010/10/6

Y1 - 2010/10/6

N2 - We report the self-seeded growth of highly crystalline Ge nanowires, with a mean diameter as small as 6 nm without the need for a metal catalyst. The nanowires, synthesized using the purpose-built precursor hexakis(trimethylsilyl) digermane, exhibit high aspect ratios (>1000) while maintaining a uniform core diameter along their length. Additionally, the nanowires are encased in an amorphous shell of material derived from the precursor, which acts to passivate their surfaces and isolates the Ge seed particles from which the nanowires grow. The diameter of the nanowires was found to depend on the synthesis temperature employed. Specifically, there is a linear relationship between the inverse radius of the nanowires and the synthesis temperature, which can be explained by a model for the size-dependent melting of simple metals.

AB - We report the self-seeded growth of highly crystalline Ge nanowires, with a mean diameter as small as 6 nm without the need for a metal catalyst. The nanowires, synthesized using the purpose-built precursor hexakis(trimethylsilyl) digermane, exhibit high aspect ratios (>1000) while maintaining a uniform core diameter along their length. Additionally, the nanowires are encased in an amorphous shell of material derived from the precursor, which acts to passivate their surfaces and isolates the Ge seed particles from which the nanowires grow. The diameter of the nanowires was found to depend on the synthesis temperature employed. Specifically, there is a linear relationship between the inverse radius of the nanowires and the synthesis temperature, which can be explained by a model for the size-dependent melting of simple metals.

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AN - SCOPUS:77957301387

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JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 39

ER -

Seedless growth of sub-10 nm germanium nanowires

Abstract

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