Abstract: A steady-state isotopic transient analysis of NO adsorption over Co-ZSM-5 catalyst in the absence or in the presence of oxygen is reported by using doubly labeled nitric oxide. The kinetics and mechanism of NOX formation as well as the number of active sites for NO adsorption and their possible location on the catalyst surface are determined. The formation of NO2δ+ species, active intermediates in deNOX chemistry in the presence of oxygen and hydrocarbons, is shown to proceed according two sequential steps: (i) molecular oxygen adsorption and (ii) NO reaction with oxidized surface sites. The frequency factor of that reaction is found to be two orders of magnitude higher than that of mononitrosyls formation via the adsorption of NO on cobalt sites. The oxygen exchange within NO2δ+ is considerably slower than the formation of that intermediate species, indicating that its two oxygen atoms are nonequivalent. The concentration of active sites leading to NO2δ+ formation is also estimated and related to the interface existing between cobalt oxide clusters and zeolite framework.

Cite: Sadovskaya E.M. , Suknev A.P. , Pinaeva L.G. , Goncharov V.B. , Balʹzhinimaev B.S. , Chupin C. , Mirodatos C.
Mechanism and Kinetics of the Selective NO Reduction over Co-ZSM-5 Studied by the SSITKA Technique: Part 1: NOX Adsorbed Species Formation
Journal of Catalysis. 2001. V.201. N2. P.159-168. DOI: 10.1006/jcat.2001.3256 WOS Scopus РИНЦ ANCAN OpenAlex

Dates:

Submitted:	Feb 20, 2000
Accepted:	Apr 19, 2001
Published print:	Jul 25, 2001
Published online:	May 25, 2002

Identifiers:

Web of science:	WOS:000170172200001
Scopus:	2-s2.0-0035743065
Elibrary:	14056796
Chemical Abstracts:	2001:499032
Chemical Abstracts (print):	135:294517
OpenAlex:	W2015232225

Citing:

DB	Citing
Web of science	18
Scopus	22
Elibrary	19
OpenAlex	34

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