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Oxidation of NO Into NO2 by Surface Adsorbed O Atoms

Plasma‐surface interactions are increasingly recognised as a key factor in explaining molecule production and conversion processes. In order to scrutinise such effects well‐defined surface and gas phase conditions are required. Hence, the inner surface of a Pyrex tube was treated by a capacitively c...

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Published in:	Contributions to plasma physics (1988) 2011-03, Vol.51 (2-3), p.176-181
Main Authors:	Guaitella, O., Hübner, M., Marinov, D., Guerra, V., Pintassilgo, C.D., Welzel, S., Röpcke, J., Rousseau, A.
Format:	Article
Language:	English
Subjects:	NO oxidation O Surface Absorbance Physics Plasma Physics QCLAS
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container_issue	2-3
container_start_page	176
container_title	Contributions to plasma physics (1988)
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creator	Guaitella, O. Hübner, M. Marinov, D. Guerra, V. Pintassilgo, C.D. Welzel, S. Röpcke, J. Rousseau, A.
description	Plasma‐surface interactions are increasingly recognised as a key factor in explaining molecule production and conversion processes. In order to scrutinise such effects well‐defined surface and gas phase conditions are required. Hence, the inner surface of a Pyrex tube was treated by a capacitively coupled RF plasma at low pressure. The post‐plasma oxidation of gas mixtures containing 1 % NO into NO2 has been studied by means of quantum cascade laser absorption spectroscopy in the mid‐infrared spectral range. The plasma pre‐treatment experiments with oxygen containing precursors suggest O atom adsorption on the Pyrex tube with a surface density of 2.7 x 1014 cm–2. A simple kinetic model was developed and shows good agreement with the measured NO and NO2 gas phase concentrations. In the model a fraction of the surface is considered to be covered with chemisorption sites where atoms and molecules can be adsorbed, whereas they can be removed only by recombination (© 2011 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)
doi_str_mv	10.1002/ctpp.201000068
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subjects	NO oxidation O Surface Absorbance Physics Plasma Physics QCLAS
title	Oxidation of NO Into NO2 by Surface Adsorbed O Atoms
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