Structural properties of silicon–germanium and germanium–silicon core–shell nanowires
Structural properties of silicon–germanium and germanium–silicon core–shell nanowires
Core–shell nanowires made of Si and Ge can be grown experimentally with excellent control for different sizes of both core and shell. We have studied the structural properties of Si/Ge and Ge/Si core–shell nanowires aligned along the direction, with diameters up to 10.2 nm and varying core to shell ratios, using linear scaling density functional theory. We show that Vegard's law, which is often used to predict the axial lattice constant, can lead to an error of up to 1%, underlining the need for a detailed ab initio atomistic treatment of the nanowire structure. We analyse the character of the intrinsic strain distribution and show that, regardless of the composition or bond direction, the Si core or shell always expands. In contrast, the strain patterns in the Ge shell or core are highly sensitive to the location, composition and bond direction. The highest strains are found at heterojunction interfaces and the surfaces of the nanowires. This detailed understanding of the atomistic structure and strain paves the way for studies of the electronic properties of core–shell nanowires and investigations of doping and structure defects.
O'Rourke, Conn
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Mujahed, Shereif Y.
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Kumarasinghe, Chathurangi
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Miyazaki, Tsuyoshi
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Bowler, David R.
db66fb34-efce-43ed-bfeb-74de308a682c
30 November 2018
O'Rourke, Conn
2273b21c-9ba3-4ca4-952f-6676f3fe8bff
Mujahed, Shereif Y.
edab4951-0dde-4025-9319-b58ec0c7724a
Kumarasinghe, Chathurangi
23d4aa65-2879-4e0a-9c16-e88055897fe1
Miyazaki, Tsuyoshi
b7b905ba-a9bc-4dcb-8ce8-4867242e99af
Bowler, David R.
db66fb34-efce-43ed-bfeb-74de308a682c
O'Rourke, Conn, Mujahed, Shereif Y., Kumarasinghe, Chathurangi, Miyazaki, Tsuyoshi and Bowler, David R.
(2018)
Structural properties of silicon–germanium and germanium–silicon core–shell nanowires.
Journal of Physics: Condensed Matter, 30, [465303].
(doi:10.1088/1361-648x/aae617).
Abstract
Core–shell nanowires made of Si and Ge can be grown experimentally with excellent control for different sizes of both core and shell. We have studied the structural properties of Si/Ge and Ge/Si core–shell nanowires aligned along the direction, with diameters up to 10.2 nm and varying core to shell ratios, using linear scaling density functional theory. We show that Vegard's law, which is often used to predict the axial lattice constant, can lead to an error of up to 1%, underlining the need for a detailed ab initio atomistic treatment of the nanowire structure. We analyse the character of the intrinsic strain distribution and show that, regardless of the composition or bond direction, the Si core or shell always expands. In contrast, the strain patterns in the Ge shell or core are highly sensitive to the location, composition and bond direction. The highest strains are found at heterojunction interfaces and the surfaces of the nanowires. This detailed understanding of the atomistic structure and strain paves the way for studies of the electronic properties of core–shell nanowires and investigations of doping and structure defects.
Text
O’Rourke_2018_J._Phys.__Condens._Matter_30_465303
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Accepted/In Press date: 4 October 2018
Published date: 30 November 2018
Identifiers
Local EPrints ID: 488886
URI: http://eprints.soton.ac.uk/id/eprint/488886
ISSN: 0953-8984
PURE UUID: 5f66f81a-ab70-47c2-b13c-8a676620f182
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Date deposited: 09 Apr 2024 10:03
Last modified: 09 Apr 2024 10:04
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Contributors
Author:
Conn O'Rourke
Author:
Shereif Y. Mujahed
Author:
Chathurangi Kumarasinghe
Author:
Tsuyoshi Miyazaki
Author:
David R. Bowler
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