Journal
APPLIED CATALYSIS B-ENVIRONMENTAL
Volume 203, Issue -, Pages 174-188Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.apcatb.2016.10.021
Keywords
NH3-SCO; Perovskite; Mechanism; Palladium substitution
Funding
- Chevreul institute [FR 2638]
- Ministere de l'Enseignement Superieur et de la Recherche
- Region Nord - Pas de Calais
- FEDER
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Iron-based perovskites, of LaFe1-xB'O-x(3-delta) (B' = Cu, Pd) formula, are proposed as effective materials for the ammonia selective catalytic oxidation to nitrogen (NH3-SCO). Effects on N-2 yield, of copper or palladium substitutions in B position, and of perovskite dispersion over Al2O3 support, are reported. Copper and palladium substitution in perovskite lattice significantly promotes the NH3 conversion rate, owing to the outstanding redox capacity displayed by the substituted compositions at low temperature (T <300 degrees C). While N-2 yield decreases upon Cu-doping, it retains as high as 80-90% over Pd-containing catalysts. Copper substitution enhances low-temperature oxygen mobility, which is favorable to N-H bond fracture of adsorbed -ONH3 species that results in high NO formation. Palladium substitution results in an opposite effect, and high selectivity towards N-2 is obtained. Additionally, N-2 yield is significantly improved at high temperature, when perovskite active phase is dispersed over Al2O3 support. Combining in-situ DRIFTS and density functional theory (DFT) calculations, NH3-SCO to N-2 reaction pathway over Fe-based perovskites is proposed to follow an Eley-Rideal (E-R) mechanism, during which gaseous NH3 reacts with adsorbed -ONH2 species to form surface diazo species (-N=N-). For LaFeO3, the rate-determining step is the -ON2H2 to ON2H reaction (overcoming an energy barrier 03.48 eV), while for LaFe0.95Pd0.05O3, the rate-determining step is O-N bond cleavage (energy barrier of 1.55 eV) that explains then higher N-2 yield measured for the Pd-containing perovskite catalyst. (C) 2016 Elsevier B.V. All rights reserved.
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