The catalytic activity of pure and Ni-doped MgO surfaces in N2O decomposition has been investigated theoretically with DFT B3LYP cluster model calculations. The barrier to abstraction of O from N2O to form a surface peroxo group, O-2(2-), is found to be rate limiting on both pure and Ni-doped MgO. In the presence of Ni impurities, however, the barrier is reduced from 1.37 eV to 1.19 eV, thus accounting for the experimentally observed increase in catalytic activity as function of the Ni content. Dissociation reaction was found to take place also by direct interaction with surface Ni ion with a competing activation barrier of 1.22 eV. However, this latter process is less exothermic (1.45 eV vs 2.19 eV). The 0 abstraction by a Surface oxygen is followed by 0 diffusion and recombination with final desorption of an O-2 molecule from the surface. This process occurs preferentially on pure MgO while requires higher barriers in the presence of Ni. This can explain the observed decrease of catalyst activity when the Ni concentration becomes higher than 50%. (c) 2005 Elsevier B.V. All rights reserved

Scagnelli, A., DI VALENTIN, C., Pacchioni, G. (2006). Catalytic dissociation of N2O on pure and Ni-doped MgO surfaces. SURFACE SCIENCE, 600(2), 386-394 [10.1016/j.susc.2005.10.048].

Catalytic dissociation of N2O on pure and Ni-doped MgO surfaces

DI VALENTIN, CRISTIANA;PACCHIONI, GIANFRANCO
2006

Abstract

The catalytic activity of pure and Ni-doped MgO surfaces in N2O decomposition has been investigated theoretically with DFT B3LYP cluster model calculations. The barrier to abstraction of O from N2O to form a surface peroxo group, O-2(2-), is found to be rate limiting on both pure and Ni-doped MgO. In the presence of Ni impurities, however, the barrier is reduced from 1.37 eV to 1.19 eV, thus accounting for the experimentally observed increase in catalytic activity as function of the Ni content. Dissociation reaction was found to take place also by direct interaction with surface Ni ion with a competing activation barrier of 1.22 eV. However, this latter process is less exothermic (1.45 eV vs 2.19 eV). The 0 abstraction by a Surface oxygen is followed by 0 diffusion and recombination with final desorption of an O-2 molecule from the surface. This process occurs preferentially on pure MgO while requires higher barriers in the presence of Ni. This can explain the observed decrease of catalyst activity when the Ni concentration becomes higher than 50%. (c) 2005 Elsevier B.V. All rights reserved
Articolo in rivista - Articolo scientifico
density functional calculations; magnesium oxide; nickel-doping; nitrous oxides; transition states
English
15-gen-2006
600
2
386
394
none
Scagnelli, A., DI VALENTIN, C., Pacchioni, G. (2006). Catalytic dissociation of N2O on pure and Ni-doped MgO surfaces. SURFACE SCIENCE, 600(2), 386-394 [10.1016/j.susc.2005.10.048].
File in questo prodotto:
Non ci sono file associati a questo prodotto.

I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/933
Citazioni
  • Scopus 19
  • ???jsp.display-item.citation.isi??? 18
Social impact