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Titel:

Cluster Size-Dependent Mechanisms of the CO + NO Reaction on Small Pdn (n ≤ 30) Clusters on Oxide Surfaces

Autor(en):
Woerz, Anke S.; Judai, Ken; Abbet, Stephane; Heiz, Ulrich
Abstract:
The CO + NO reaction (2CO + 2NO → N2 + 2CO2) on small size-selected palladium clusters supported on thin MgO(100) films reveals distinct size effects in the size range Pdn with n ≤ 30. Clusters up to the tetramer are inert, while larger clusters form CO2 at around 300 K, and this main reaction mechanism involves adsorbed CO and an adsorbed oxygen atom, a reaction product from the dissocn. of NO. In addn., clusters consisting of 20-30 atoms reveal a low-temp. mechanism obsd. at temps. below 1...     »
Stichworte:
Adsorbed substances Adsorption Catalysts Exhaust gases Flue gases Waste gases (cluster size-dependent mechanisms of CO + NO reaction on small Pdn (n ≤ 30) clusters on oxide surfaces) Oxides Role: CAT (Catalyst use), PRP (Properties), USES (Uses) (cluster size-dependent mechanisms of CO + NO reaction on small Pdn (n ≤ 30) clusters on oxide surfaces) Air pollution (control cluster size-dependent mechanisms of CO + NO reaction on small Pdn (n ≤ 30) clusters on oxide surfaces) Clusters (metal...     »
Kongresstitel:
CAN 139:11236 59-4 Air Pollution and Industrial Hygiene Institute of Surface Chemistry and Catalysis, University of Ulm, Ulm, Germany. Journal 0002-7863 1309-48-4 (Magnesia); 7440-05-3D (Palladium) Role: CAT (Catalyst use), PRP (Properties), USES (Uses) (cluster size-dependent mechanisms of CO + NO reaction on small Pdn (n ≤ 30) clusters on oxide surfaces); 630-08-0 (Carbon monoxide); 10102-43-9 (Nitric oxide) Role: CPS (Chemical process), PEP (Physical, engineering or chemical process), PO...     »
Zeitschriftentitel:
J. Am. Chem. Soc.
Jahr:
2003
Band / Volume:
125
Heft / Issue:
26
Seitenangaben Beitrag:
7964-7970
Volltext / DOI:
doi:10.1021/ja0352247
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