We outline a metal-free fabrication route of in-plane Ge nanowires on Ge(001) substrates. By positively exploiting the polishing-induced defects of standard-quality commercial Ge(001) wafers, micrometer-length wires are grown by physical vapor deposition in ultra-high-vacuum environment. The shape of the wires can be tailored by the epitaxial strain induced by subsequent Si deposition, determining a progressive transformation of the wires in SiGe faceted quantum dots. This shape transition is described by finite element simulations of continuous elasticity and gives hints on the equilibrium shape of nanocrystals in the presence of tensile epitaxial strain. PACS: 81.07.Gf; 68.35.bg; 68.35.bj; 62.23.Eg © 2014 Persichetti et al.; licensee Springer.

Persichetti, L., Sgarlata, A., Mori, S., Notarianni, M., Cherubini, V., Fanfoni, M., et al. (2014). Beneficial defects: Exploiting the intrinsic polishing-induced wafer roughness for the catalyst-free growth of Ge in-plane nanowires. NANOSCALE RESEARCH LETTERS, 9(1), 1-9 [10.1186/1556-276X-9-358].

Beneficial defects: Exploiting the intrinsic polishing-induced wafer roughness for the catalyst-free growth of Ge in-plane nanowires

PERSICHETTI, LUCA;SGARLATA, ANNA;FANFONI, MASSIMO;MOTTA, NUNZIO;BALZAROTTI, ADALBERTO
2014-01-01

Abstract

We outline a metal-free fabrication route of in-plane Ge nanowires on Ge(001) substrates. By positively exploiting the polishing-induced defects of standard-quality commercial Ge(001) wafers, micrometer-length wires are grown by physical vapor deposition in ultra-high-vacuum environment. The shape of the wires can be tailored by the epitaxial strain induced by subsequent Si deposition, determining a progressive transformation of the wires in SiGe faceted quantum dots. This shape transition is described by finite element simulations of continuous elasticity and gives hints on the equilibrium shape of nanocrystals in the presence of tensile epitaxial strain. PACS: 81.07.Gf; 68.35.bg; 68.35.bj; 62.23.Eg © 2014 Persichetti et al.; licensee Springer.
2014
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore FIS/03 - FISICA DELLA MATERIA
English
Epitaxy; Germanium; Nanowires; Quantum dots; Silicon; Materials Science (all); Condensed Matter Physics
Persichetti, L., Sgarlata, A., Mori, S., Notarianni, M., Cherubini, V., Fanfoni, M., et al. (2014). Beneficial defects: Exploiting the intrinsic polishing-induced wafer roughness for the catalyst-free growth of Ge in-plane nanowires. NANOSCALE RESEARCH LETTERS, 9(1), 1-9 [10.1186/1556-276X-9-358].
Persichetti, L; Sgarlata, A; Mori, S; Notarianni, M; Cherubini, V; Fanfoni, M; Motta, N; Balzarotti, A
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/136133
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