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Epitaxial post-implant recrystallization in germanium nanowires

Epitaxial post-implant recrystallization in germanium nanowires
Epitaxial post-implant recrystallization in germanium nanowires
As transistor dimensions continue to diminish, techniques for fabrication need to be adapted. In particular, crystal recovery post ion implantation is required due to destructive ion bombardment inducing crystal damage including amorphization. Here, we report a study on the post-implant recrystallization in germanium (Ge) nanowires (NWs) following gallium (Ga) ion doping. In this work a variation of NW diameters and orientations were irradiated and annealed in situ to investigate the mechanism of recrystallization. An added complication of misorientation of crystal grains increases the complexity of crystal recovery for suspended NWs. We show that when the misorientation is prevented, by leaving a crystal link between two seeds and providing a rigid support, recrystallization occurs primarily via solid phase epitaxial growth (SPEG). Finally, we demonstrate that top-down fabricated Ge NWs on insulator can be recovered with no extended defects. This work highlights both experimentally and through molecular dynamic simulations the importance of engineering crystal recovery in Ge NWs which may have potential for next-generation complementary metal-oxide semiconductor (CMOS) devices.
1528-7483
4581-4590
Kelly, Roisin A.
8c78bd73-66c9-4ecb-9d14-d4f6eb008055
Liedke, Bartosz
462a1b7f-000a-451f-ad42-6dcc2f113707
Baldauf, Stefan
a48d6044-0187-406b-ad7a-01da3dbe589a
Gangnaik, Anushka
8b44e462-2a3f-4295-a9ff-1a2f7c09f14d
Biswas, Subhajit
843e3bab-57ca-4141-b30c-6d5a37f66bf5
Georgiev, Yordan
d98273f7-3086-4159-883e-c0da58be2a4d
Holmes, Justin D.
6f16ad07-0c95-4eba-a71b-70dd149f5a9a
Posselt, Matthias
f49bb071-3090-42fe-9bf1-ad104b15c3d6
Petkov, Nikolay
4243e25a-7819-4fa7-afb4-30a86d8b96be
Kelly, Roisin A.
8c78bd73-66c9-4ecb-9d14-d4f6eb008055
Liedke, Bartosz
462a1b7f-000a-451f-ad42-6dcc2f113707
Baldauf, Stefan
a48d6044-0187-406b-ad7a-01da3dbe589a
Gangnaik, Anushka
8b44e462-2a3f-4295-a9ff-1a2f7c09f14d
Biswas, Subhajit
843e3bab-57ca-4141-b30c-6d5a37f66bf5
Georgiev, Yordan
d98273f7-3086-4159-883e-c0da58be2a4d
Holmes, Justin D.
6f16ad07-0c95-4eba-a71b-70dd149f5a9a
Posselt, Matthias
f49bb071-3090-42fe-9bf1-ad104b15c3d6
Petkov, Nikolay
4243e25a-7819-4fa7-afb4-30a86d8b96be

Kelly, Roisin A., Liedke, Bartosz, Baldauf, Stefan, Gangnaik, Anushka, Biswas, Subhajit, Georgiev, Yordan, Holmes, Justin D., Posselt, Matthias and Petkov, Nikolay (2015) Epitaxial post-implant recrystallization in germanium nanowires. Crystal Growth and Design, 15 (9), 4581-4590. (doi:10.1021/acs.cgd.5b00836).

Record type: Article

Abstract

As transistor dimensions continue to diminish, techniques for fabrication need to be adapted. In particular, crystal recovery post ion implantation is required due to destructive ion bombardment inducing crystal damage including amorphization. Here, we report a study on the post-implant recrystallization in germanium (Ge) nanowires (NWs) following gallium (Ga) ion doping. In this work a variation of NW diameters and orientations were irradiated and annealed in situ to investigate the mechanism of recrystallization. An added complication of misorientation of crystal grains increases the complexity of crystal recovery for suspended NWs. We show that when the misorientation is prevented, by leaving a crystal link between two seeds and providing a rigid support, recrystallization occurs primarily via solid phase epitaxial growth (SPEG). Finally, we demonstrate that top-down fabricated Ge NWs on insulator can be recovered with no extended defects. This work highlights both experimentally and through molecular dynamic simulations the importance of engineering crystal recovery in Ge NWs which may have potential for next-generation complementary metal-oxide semiconductor (CMOS) devices.

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Published date: 14 August 2015
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Identifiers

Local EPrints ID: 452780
URI: http://eprints.soton.ac.uk/id/eprint/452780
DOI: doi:10.1021/acs.cgd.5b00836
ISSN: 1528-7483
PURE UUID: 67e8eb63-e669-4444-98c9-115c7e0e34a5

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Date deposited: 20 Dec 2021 17:36
Last modified: 16 Mar 2024 14:31

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Contributors

Author: Roisin A. Kelly
Author: Bartosz Liedke
Author: Stefan Baldauf
Author: Anushka Gangnaik
Author: Subhajit Biswas
Author: Yordan Georgiev
Author: Justin D. Holmes
Author: Matthias Posselt
Author: Nikolay Petkov

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