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Phosphorus, Sulfur, and Silicon and the Related Elements Volume 194, 2019 - Issue 10: Proceedings of the 2018 International Conference on Phosphorus, Boron and Silicon, PBSi 2018
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Original Articles

Synthesis of nanopowders in a PECVD reactor from organosilicon precursor

Y. FermiUniversité Frères Mentouri de Constantine, Laboratoire Microsystèmes et Instrumentation, Faculté sciences de la technologie, Route de Ain El Bey, Constantine, Algérie; Correspondence[email protected]
ORCID Iconhttp://orcid.org/0000-0003-2745-171X
ORCID Icon,
M. KihelUniversité Frères Mentouri de Constantine, Laboratoire Microsystèmes et Instrumentation, Faculté sciences de la technologie, Route de Ain El Bey, Constantine, Algérie;
,
S. SahliUniversité Frères Mentouri de Constantine, Laboratoire Microsystèmes et Instrumentation, Faculté sciences de la technologie, Route de Ain El Bey, Constantine, Algérie;
&
P. RaynaudUniversité Paul Sabatier, LAPLACE, CNRS, 118 Route de Narbonne, Toulouse cedex, France
Pages 978-982 | Received 17 May 2019, Accepted 09 Jun 2019, Published online: 22 Jun 2019
 
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Abstract

In previous work, nanopowders have been obtained during the deposition of thin layers from Hexamethyldisiloxane (HMDSO) using low frequency plasma. The aim of this work is the study of the growth process of these nanopowders in plasma discharge and in deposited films. The plasma discharge was generated from HMDSO precursor in low frequency reactor; optical emission spectroscopy (OES) and scanning electron microscopy (SEM) have been used to investigate the effect of the deposition parameters on the nanopowders growth in the plasma discharge and in the deposited thin layers respectively. For high deposition pressure, OES reveals the presence of SiH (situated at 414 nm), OH (situated at 309 nm), CHO (situated at: 324.3, 351.5 nm) species and some additional emission peaks of CO (situated at: 540.9, 566.6, 578, 646,6 nm). The intensities evolution of these species have been investigated during the discharge plasma and the presence of some of them may be the result from the reaction of the nanoparticles of the deposited powders with the plasma species. Nanoparticles agglomerations have been revealed by SEM observations and their aspect correlated with optical emission spectroscopy measurements.

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