Low temperature plasma synthesis of nanocrystals and their application to the growth of crystalline silicon and germanium thin films

P. Roca I Cabarrocas; K. H. Kim; R. Cariou; M. Labrune; E. V. Johnson; M. Moreno; A. Torres Rios; S. Abolmasov; S. Kasouit

doi:10.1557/opl.2012.1094

Low temperature plasma synthesis of nanocrystals and their application to the growth of crystalline silicon and germanium thin films

P. Roca I Cabarrocas
, K. H. Kim
, R. Cariou
, M. Labrune
, E. V. Johnson
, M. Moreno
, A. Torres Rios
, S. Abolmasov
, S. Kasouit

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

We summarize our research studies on the synthesis of silicon and germanium nanocrystals and their application to the growth of a variety of thin films, spanning the range from fully disordered amorphous up to fully ordered crystalline. All these films are deposited in a standard radio-frequency glow discharge system at low temperature (∼200°C). We show how the plasma synthesis of silicon nanocrystals, initially a side effect of powder formation, has become over the years an exciting field of research which has opened the way to new opportunities in the field of materials deposition and their application to optoelectronic devices. Our results suggest that epitaxy requires the melting/amorphization of the nanocrystals upon impact on the substrate, the subsequent epitaxial growth being favored on (100) c-Si substrates. As a consequence, the control of the impact energy is a critical aspect of the growth which will require new strategies such as the use of tailored voltage waveforms.

Original language	English
Title of host publication	Amorphous and Polycrystalline Thin-Film Silicon Science and Technology - 2012
Pages	319-329
Number of pages	11
DOIs	https://doi.org/10.1557/opl.2012.1094
Publication status	Published - 28 Nov 2012
Event	2012 MRS Spring Meeting - San Francisco, CA, United States Duration: 9 Apr 2012 → 13 Apr 2012

Publication series

Name	Materials Research Society Symposium Proceedings
Volume	1426
ISSN (Print)	0272-9172

Conference

Conference	2012 MRS Spring Meeting
Country/Territory	United States
City	San Francisco, CA
Period	9/04/12 → 13/04/12

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10.1557/opl.2012.1094

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Roca I Cabarrocas, P., Kim, K. H., Cariou, R., Labrune, M., Johnson, E. V., Moreno, M., Torres Rios, A., Abolmasov, S., & Kasouit, S. (2012). Low temperature plasma synthesis of nanocrystals and their application to the growth of crystalline silicon and germanium thin films. In Amorphous and Polycrystalline Thin-Film Silicon Science and Technology - 2012 (pp. 319-329). (Materials Research Society Symposium Proceedings; Vol. 1426). https://doi.org/10.1557/opl.2012.1094

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title = "Low temperature plasma synthesis of nanocrystals and their application to the growth of crystalline silicon and germanium thin films",

abstract = "We summarize our research studies on the synthesis of silicon and germanium nanocrystals and their application to the growth of a variety of thin films, spanning the range from fully disordered amorphous up to fully ordered crystalline. All these films are deposited in a standard radio-frequency glow discharge system at low temperature (∼200°C). We show how the plasma synthesis of silicon nanocrystals, initially a side effect of powder formation, has become over the years an exciting field of research which has opened the way to new opportunities in the field of materials deposition and their application to optoelectronic devices. Our results suggest that epitaxy requires the melting/amorphization of the nanocrystals upon impact on the substrate, the subsequent epitaxial growth being favored on (100) c-Si substrates. As a consequence, the control of the impact energy is a critical aspect of the growth which will require new strategies such as the use of tailored voltage waveforms.",

author = "\{Roca I Cabarrocas\}, P. and Kim, \{K. H.\} and R. Cariou and M. Labrune and Johnson, \{E. V.\} and M. Moreno and \{Torres Rios\}, A. and S. Abolmasov and S. Kasouit",

year = "2012",

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doi = "10.1557/opl.2012.1094",

language = "English",

isbn = "9781605114033",

series = "Materials Research Society Symposium Proceedings",

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note = "2012 MRS Spring Meeting ; Conference date: 09-04-2012 Through 13-04-2012",

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Roca I Cabarrocas, P, Kim, KH, Cariou, R, Labrune, M, Johnson, EV, Moreno, M, Torres Rios, A, Abolmasov, S & Kasouit, S 2012, Low temperature plasma synthesis of nanocrystals and their application to the growth of crystalline silicon and germanium thin films. in Amorphous and Polycrystalline Thin-Film Silicon Science and Technology - 2012. Materials Research Society Symposium Proceedings, vol. 1426, pp. 319-329, 2012 MRS Spring Meeting, San Francisco, CA, United States, 9/04/12. https://doi.org/10.1557/opl.2012.1094

Low temperature plasma synthesis of nanocrystals and their application to the growth of crystalline silicon and germanium thin films. / Roca I Cabarrocas, P.; Kim, K. H.; Cariou, R. et al.
Amorphous and Polycrystalline Thin-Film Silicon Science and Technology - 2012. 2012. p. 319-329 (Materials Research Society Symposium Proceedings; Vol. 1426).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - Low temperature plasma synthesis of nanocrystals and their application to the growth of crystalline silicon and germanium thin films

AU - Roca I Cabarrocas, P.

AU - Kim, K. H.

AU - Cariou, R.

AU - Labrune, M.

AU - Johnson, E. V.

AU - Moreno, M.

AU - Torres Rios, A.

AU - Abolmasov, S.

AU - Kasouit, S.

PY - 2012/11/28

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N2 - We summarize our research studies on the synthesis of silicon and germanium nanocrystals and their application to the growth of a variety of thin films, spanning the range from fully disordered amorphous up to fully ordered crystalline. All these films are deposited in a standard radio-frequency glow discharge system at low temperature (∼200°C). We show how the plasma synthesis of silicon nanocrystals, initially a side effect of powder formation, has become over the years an exciting field of research which has opened the way to new opportunities in the field of materials deposition and their application to optoelectronic devices. Our results suggest that epitaxy requires the melting/amorphization of the nanocrystals upon impact on the substrate, the subsequent epitaxial growth being favored on (100) c-Si substrates. As a consequence, the control of the impact energy is a critical aspect of the growth which will require new strategies such as the use of tailored voltage waveforms.

AB - We summarize our research studies on the synthesis of silicon and germanium nanocrystals and their application to the growth of a variety of thin films, spanning the range from fully disordered amorphous up to fully ordered crystalline. All these films are deposited in a standard radio-frequency glow discharge system at low temperature (∼200°C). We show how the plasma synthesis of silicon nanocrystals, initially a side effect of powder formation, has become over the years an exciting field of research which has opened the way to new opportunities in the field of materials deposition and their application to optoelectronic devices. Our results suggest that epitaxy requires the melting/amorphization of the nanocrystals upon impact on the substrate, the subsequent epitaxial growth being favored on (100) c-Si substrates. As a consequence, the control of the impact energy is a critical aspect of the growth which will require new strategies such as the use of tailored voltage waveforms.

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DO - 10.1557/opl.2012.1094

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SN - 9781605114033

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BT - Amorphous and Polycrystalline Thin-Film Silicon Science and Technology - 2012

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Roca I Cabarrocas P, Kim KH, Cariou R, Labrune M, Johnson EV, Moreno M et al. Low temperature plasma synthesis of nanocrystals and their application to the growth of crystalline silicon and germanium thin films. In Amorphous and Polycrystalline Thin-Film Silicon Science and Technology - 2012. 2012. p. 319-329. (Materials Research Society Symposium Proceedings). doi: 10.1557/opl.2012.1094

Low temperature plasma synthesis of nanocrystals and their application to the growth of crystalline silicon and germanium thin films

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