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Reactions of SiCl2 with N2O, NO and O2

Reactions of SiCl2 with N2O, NO and O2
Reactions of SiCl2 with N2O, NO and O2
The thermal route to dichlorosilylene by pyrolysis Of Si2Cl6 has been investigated using both mass spectrometry and matrix isolation techniques. The formation Of SiCl2 in the gas phase was confirmed by employing a known "trapping" agent, namely buta-1,3-diene, which gave the product 1, 2-dichloro-1-silacyclopent-3 -ene. Dichlorosilylene was then reacted with N2O and NO. The observed products in the mass spectrum from the N2O reaction were SiCl2O and its polymers and N-2. On reacting SiCl2 with NO, SiCl2O and its polymers, Cl-2 and N2O were all observed. Infrared spectra of argon matrices supported these findings from mass spectrometry. A mechanism is proposed for this reaction based on these observations involving the intermediacy of cyclo-Cl2SiO2 and is supported by ab initio calculations at the MP2 and G3 levels. The reaction between SiCl2 and O-2 has also been investigated. The products seen in this case were SiCl2O and Cl-2. Ab initio calculations again suggest that cyclo-Cl2SiO2 is involved, and a chain mechanism seems the most likely route to Cl-2 formation. The calculations lead to DeltaH(f)degrees (SiO2,g) = -276 +/- 4- 6 kJ mol(-1).
matrix-isolation, infrared-spectrum, rate-constant, nitric-oxide, dichlorosilylene, photolysis, oxygen, thermochemistry, decomposition, spectroscopy
1463-9076
5371-5377
Goldberg, Nicola
6bd11b0f-0f42-4484-a427-8d7bd5b11644
Ogden, J. Steven
5a99fd42-75e7-4f7b-a347-ac2b1717b8b3
Almond, Matthew J.
992a3a7b-3cbe-4818-828f-e0e6b876207f
Walsh, Robin
aacc9be2-5b7b-401b-9305-bb6cca0822a0
Cannady, J. Pat
1b7d2bf5-1694-4d9f-8bc5-aab0783e9f76
Becerra, Rosa
766758a2-9c71-4cab-9523-2874dfd5f84a
Lee, Jennifer A.
31fe7b8b-2713-44fc-87df-1b5a97c66d19
Goldberg, Nicola
6bd11b0f-0f42-4484-a427-8d7bd5b11644
Ogden, J. Steven
5a99fd42-75e7-4f7b-a347-ac2b1717b8b3
Almond, Matthew J.
992a3a7b-3cbe-4818-828f-e0e6b876207f
Walsh, Robin
aacc9be2-5b7b-401b-9305-bb6cca0822a0
Cannady, J. Pat
1b7d2bf5-1694-4d9f-8bc5-aab0783e9f76
Becerra, Rosa
766758a2-9c71-4cab-9523-2874dfd5f84a
Lee, Jennifer A.
31fe7b8b-2713-44fc-87df-1b5a97c66d19

Goldberg, Nicola, Ogden, J. Steven, Almond, Matthew J., Walsh, Robin, Cannady, J. Pat, Becerra, Rosa and Lee, Jennifer A. (2003) Reactions of SiCl2 with N2O, NO and O2. Physical Chemistry Chemical Physics, 5 (24), 5371-5377. (doi:10.1039/b309871k).

Record type: Article

Abstract

The thermal route to dichlorosilylene by pyrolysis Of Si2Cl6 has been investigated using both mass spectrometry and matrix isolation techniques. The formation Of SiCl2 in the gas phase was confirmed by employing a known "trapping" agent, namely buta-1,3-diene, which gave the product 1, 2-dichloro-1-silacyclopent-3 -ene. Dichlorosilylene was then reacted with N2O and NO. The observed products in the mass spectrum from the N2O reaction were SiCl2O and its polymers and N-2. On reacting SiCl2 with NO, SiCl2O and its polymers, Cl-2 and N2O were all observed. Infrared spectra of argon matrices supported these findings from mass spectrometry. A mechanism is proposed for this reaction based on these observations involving the intermediacy of cyclo-Cl2SiO2 and is supported by ab initio calculations at the MP2 and G3 levels. The reaction between SiCl2 and O-2 has also been investigated. The products seen in this case were SiCl2O and Cl-2. Ab initio calculations again suggest that cyclo-Cl2SiO2 is involved, and a chain mechanism seems the most likely route to Cl-2 formation. The calculations lead to DeltaH(f)degrees (SiO2,g) = -276 +/- 4- 6 kJ mol(-1).

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More information

Published date: 15 December 2003
Keywords: matrix-isolation, infrared-spectrum, rate-constant, nitric-oxide, dichlorosilylene, photolysis, oxygen, thermochemistry, decomposition, spectroscopy
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Identifiers

Local EPrints ID: 19965
URI: http://eprints.soton.ac.uk/id/eprint/19965
DOI: doi:10.1039/b309871k
ISSN: 1463-9076
PURE UUID: 2714e1ff-dd80-4686-8e77-2365911d3db3

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Date deposited: 23 Feb 2006
Last modified: 15 Mar 2024 06:20

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Contributors

Author: Nicola Goldberg
Author: J. Steven Ogden
Author: Matthew J. Almond
Author: Robin Walsh
Author: J. Pat Cannady
Author: Rosa Becerra
Author: Jennifer A. Lee

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