Experimental study of atmospheric pressure chemical vapor deposition of silicon carbide from methyltrichlorosilane

Experimental study of atmospheric pressure chemical vapor deposition of silicon carbide from methyltrichlorosilane

A comprehensive study of the chemical vapor deposition of SiC from methyltrichlorosilane at atmospheric pressure was conducted in this study; its main objectives were to identify the range of operating parameters in which stoichiometric SiC could be deposited and the generation of reliable kinetic d...

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Bibliographic Details
Published in:Journal of materials research Vol. 14; no. 8; pp. 3397 - 3409
Main Authors: Papasouliotis, George D., Sotirchos, Stratis V.
Format: Journal Article
Language:English
Published: New York, USA Cambridge University Press 01-08-1999
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Summary:A comprehensive study of the chemical vapor deposition of SiC from methyltrichlorosilane at atmospheric pressure was conducted in this study; its main objectives were to identify the range of operating parameters in which stoichiometric SiC could be deposited and the generation of reliable kinetic data that could be used for the design of atmospheric pressure processes of chemical vapor deposition or chemical vapor infiltration of SiC. Deposition experiments were conducted in a hot-wall, cylindrical reactor at temperature ranging from 1273 to 573 K on flat graphite substrates or thin molybdenum wires aligned with the axis of the reactor. The obtained results showed that the deposition rate and the deposit stoichiometry varied markedly with the distance from the entrance of the reactor. The deposition rate exhibited, depending on the reaction temperature, one or two pronounced maxima before the beginning of the isothermal zone of the reaction, whereas the deposit stoichiometry showed an abrupt transition from almost silicon to stoichiometric silicon carbide after the first maximum. Experiments with HCl added in the feed showed that the presence of HCl could cause complete suppression of the deposition of silicon and lead to smoother variation of the SiC deposition rate with the residence time in the reactor. It is believed that this effect could be exploited to improve the uniformity of SiC deposition in chemical vapor deposition reactors or in the interior of porous preforms.
Bibliography:Present address: Novellus Systems, Inc., 25 Corporate Drive, Hopewell Junction, New York 12533.
istex:4C78042586046765778309929EFD2E044D5E874D
ark:/67375/6GQ-WGP1CW3H-S
b) Address all correspondence to this author.
PII:S0884291400051633
ArticleID:05163
ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
ISSN:0884-2914
2044-5326
DOI:10.1557/JMR.1999.0460