Si1-xGex islands grown on Si patterned substrates have received considerable attention during the last decade for potential applications in microelectronics and optoelectronics. In this work we propose a new methodology to grow Ge-rich islands using a chemical vapour deposition technique. Electron-beam lithography is used to pre-pattern Si substrates, creating material traps. Epitaxial deposition of thin Ge films by low-energy plasma-enhanced chemical vapour deposition then leads to the formation of Ge-rich Si1-xGex islands (x < 0.8) with a homogeneous size distribution, precisely positioned with respect to the substrate pattern. The island morphology was characterized by atomic force microscopy, and the Ge content and strain in the islands was studied by μRaman spectroscopy. This characterization indicates a uniform distribution of islands with high Ge content and low strain: this suggests that the relatively high growth rate (0.1 nm s-1) and low temperature (650 °C) used is able to limit Si intermixing, while maintaining a long enough adatom diffusion length to prevent nucleation of islands outside pits. This offers the novel possibility of using these Ge-rich islands to induce strain in a Si cap. © 2010 IOP Publishing Ltd Printed in the UK & the USA.

Bollani, M., Chrastina, D., Fedorov, A., Sordan, R., Picco, A., Bonera, E. (2010). Ge-rich islands grown on patterned Si substrates by low-energy plasma-enhanced chemical vapour deposition. NANOTECHNOLOGY, 21(47) [10.1088/0957-4484/21/47/475302].

Ge-rich islands grown on patterned Si substrates by low-energy plasma-enhanced chemical vapour deposition

PICCO, ANDREA;BONERA, EMILIANO
2010

Abstract

Si1-xGex islands grown on Si patterned substrates have received considerable attention during the last decade for potential applications in microelectronics and optoelectronics. In this work we propose a new methodology to grow Ge-rich islands using a chemical vapour deposition technique. Electron-beam lithography is used to pre-pattern Si substrates, creating material traps. Epitaxial deposition of thin Ge films by low-energy plasma-enhanced chemical vapour deposition then leads to the formation of Ge-rich Si1-xGex islands (x < 0.8) with a homogeneous size distribution, precisely positioned with respect to the substrate pattern. The island morphology was characterized by atomic force microscopy, and the Ge content and strain in the islands was studied by μRaman spectroscopy. This characterization indicates a uniform distribution of islands with high Ge content and low strain: this suggests that the relatively high growth rate (0.1 nm s-1) and low temperature (650 °C) used is able to limit Si intermixing, while maintaining a long enough adatom diffusion length to prevent nucleation of islands outside pits. This offers the novel possibility of using these Ge-rich islands to induce strain in a Si cap. © 2010 IOP Publishing Ltd Printed in the UK & the USA.
Articolo in rivista - Articolo scientifico
raman spectroscopy, sige, nanotechnology
English
2010
21
47
475302
none
Bollani, M., Chrastina, D., Fedorov, A., Sordan, R., Picco, A., Bonera, E. (2010). Ge-rich islands grown on patterned Si substrates by low-energy plasma-enhanced chemical vapour deposition. NANOTECHNOLOGY, 21(47) [10.1088/0957-4484/21/47/475302].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/23479
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