Surface chemistry. Probing the transition state region in catalytic CO oxidation on Ru

Surface chemistry. Probing the transition state region in catalytic CO oxidation on Ru

Femtosecond x-ray laser pulses are used to probe the carbon monoxide (CO) oxidation reaction on ruthenium (Ru) initiated by an optical laser pulse. On a time scale of a few hundred femtoseconds, the optical laser pulse excites motions of CO and oxygen (O) on the surface, allowing the reactants to co...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2015-02, Vol.347 (6225), p.978-982
Hauptverfasser: Öström, H, Öberg, H, Xin, H, LaRue, J, Beye, M, Dell'Angela, M, Gladh, J, Ng, M L, Sellberg, J A, Kaya, S, Mercurio, G, Nordlund, D, Hantschmann, M, Hieke, F, Kühn, D, Schlotter, W F, Dakovski, G L, Turner, J J, Minitti, M P, Mitra, A, Moeller, S P, Föhlisch, A, Wolf, M, Wurth, W, Persson, M, Nørskov, J K, Abild-Pedersen, F, Ogasawara, H, Pettersson, L G M, Nilsson, A
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Sprache:eng
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Zusammenfassung:Femtosecond x-ray laser pulses are used to probe the carbon monoxide (CO) oxidation reaction on ruthenium (Ru) initiated by an optical laser pulse. On a time scale of a few hundred femtoseconds, the optical laser pulse excites motions of CO and oxygen (O) on the surface, allowing the reactants to collide, and, with a transient close to a picosecond (ps), new electronic states appear in the O K-edge x-ray absorption spectrum. Density functional theory calculations indicate that these result from changes in the adsorption site and bond formation between CO and O with a distribution of OC-O bond lengths close to the transition state (TS). After 1 ps, 10% of the CO populate the TS region, which is consistent with predictions based on a quantum oscillator model.
ISSN:1095-9203
DOI:10.1126/science.1261747