Collisional Activation of N sub(2)O Decomposition and CO Oxidation Reactions on Isolated Rhodium Clusters
The reactions of nitrous oxide decorated rhodium clusters, Rh sub(n)N sub(2)O super(+) (n = 5, 6), have been studied by Fourier transform ion cyclotron resonance mass spectrometry. Collision induced dissociation with Ar is shown to lead to one of two processes; desorption of the intact N sub(2)O moi...
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| Published in: | The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory Vol. 117; no. 36; pp. 8855 - 8863-8855-8863 |
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02-09-2013
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| Abstract | The reactions of nitrous oxide decorated rhodium clusters, Rh sub(n)N sub(2)O super(+) (n = 5, 6), have been studied by Fourier transform ion cyclotron resonance mass spectrometry. Collision induced dissociation with Ar is shown to lead to one of two processes; desorption of the intact N sub(2)O moiety (indicating molecular adsorption in the parent cluster) or N sub(2)O decomposition liberating molecular nitrogen with the latter becoming increasingly dominant at higher collision energies. Consistent with the results of earlier studies, which employed infrared excitation [Hermes, A. C.; et al. J. Phys. Chem. Lett. 2011, 2, 3053], Rh sub(5)ON sub(2)O super(+ ) is observed to behave qualitatively differently to Rh sub(5)N sub(2)O super(+) with decomposition of the nitrous oxide dominating the chemistry of the former. In other experiments, the reactivity of Rh sub(n)N sub(2)O super(+) clusters with CO has been studied. Chemisorption of super(13)CO is calculated to deposit ca. 2 eV into the parent cluster, initiating a range of chemical processes on the cluster surface, which are fit to a simple reaction mechanism. Clear differences are again observed in the reaction branching ratios for Rh sub(5)N sub(2)O super(+) and Rh sub(6)N sub(2)O super(+) parent cluster ions. For the n = 5 cluster, the combined N sub(2)O reduction/CO oxidation is the most significant reaction channel, while the n = 6 cluster preferentially is oxidized to Rh sub(6)O super(+) with loss of N sub(2) and CO. Even larger differences are observed in the reactions of the N sub(2)O decorated cluster oxides, Rh sub(n)ON sub(2)O super(+ ), for which more reaction possibilities arise. The results of all studies are discussed in relation to infrared driven processes on the same parent cluster species [Hamilton, S. M.; et al. J. Am. Chem. Soc. 2010, 132, 1448; J. Phys. Chem. A, 2011, 115, 2489]. |
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| AbstractList | The reactions of nitrous oxide decorated rhodium clusters, Rh sub(n)N sub(2)O super(+) (n = 5, 6), have been studied by Fourier transform ion cyclotron resonance mass spectrometry. Collision induced dissociation with Ar is shown to lead to one of two processes; desorption of the intact N sub(2)O moiety (indicating molecular adsorption in the parent cluster) or N sub(2)O decomposition liberating molecular nitrogen with the latter becoming increasingly dominant at higher collision energies. Consistent with the results of earlier studies, which employed infrared excitation [Hermes, A. C.; et al. J. Phys. Chem. Lett. 2011, 2, 3053], Rh sub(5)ON sub(2)O super(+ ) is observed to behave qualitatively differently to Rh sub(5)N sub(2)O super(+) with decomposition of the nitrous oxide dominating the chemistry of the former. In other experiments, the reactivity of Rh sub(n)N sub(2)O super(+) clusters with CO has been studied. Chemisorption of super(13)CO is calculated to deposit ca. 2 eV into the parent cluster, initiating a range of chemical processes on the cluster surface, which are fit to a simple reaction mechanism. Clear differences are again observed in the reaction branching ratios for Rh sub(5)N sub(2)O super(+) and Rh sub(6)N sub(2)O super(+) parent cluster ions. For the n = 5 cluster, the combined N sub(2)O reduction/CO oxidation is the most significant reaction channel, while the n = 6 cluster preferentially is oxidized to Rh sub(6)O super(+) with loss of N sub(2) and CO. Even larger differences are observed in the reactions of the N sub(2)O decorated cluster oxides, Rh sub(n)ON sub(2)O super(+ ), for which more reaction possibilities arise. The results of all studies are discussed in relation to infrared driven processes on the same parent cluster species [Hamilton, S. M.; et al. J. Am. Chem. Soc. 2010, 132, 1448; J. Phys. Chem. A, 2011, 115, 2489]. |
| Author | Balaj, OPetru Parry, Imogen S Beyer, Martin K Kartouzian, Aras Hamilton, Suzanne M Mackenzie, Stuart R |
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| Snippet | The reactions of nitrous oxide decorated rhodium clusters, Rh sub(n)N sub(2)O super(+) (n = 5, 6), have been studied by Fourier transform ion cyclotron... |
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| SubjectTerms | Chemisorption Clusters Cobalt Nitrous oxides Oxidation Parents Rhodium Surface chemistry |
| Title | Collisional Activation of N sub(2)O Decomposition and CO Oxidation Reactions on Isolated Rhodium Clusters |
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