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Topics in Catalysis

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01.05.2013 | Original Paper

H₂-Production on New BaTi_(1−x)Rh_xO₃ Catalyst via the Steam Reforming of CH₄ for H₂-SCR Applications

verfasst von: G. C. Mondragón Rodríguez, Y. Gönüllü, B. Saruhan

Erschienen in: Topics in Catalysis | Ausgabe 1-8/2013

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Abstract

Rh-doped perovskites BaTi_0.9Rh_0.1O₃ and Rh–BaTiO₃ were prepared by a new synthesis method and analyzed by XRD and FE-scanning electron microscopy (SEM). The effect of HCl for sol-formation was studied, HCl improves the sol formation but chlorine remains in the catalyst even after calcination treatment at 1,000 °C. Cl-free catalysts were prepared and analyzed on reactions for H₂ production which can be used for H₂-SCR reactions. The Rh-integrated perovskite BaTi_0.9Rh_0.1O₃ displayed better catalytic performance compared to Rh–BaTiO₃ and Rh–TiO₂ under the studied reaction conditions. Carefull XRD analysis was carried out to demonstrate the incorporation of Rh in the perovskite lattice. Rhodium reacts with the tetragonal perovskite BaTiO₃ to stabilize the hexagonal modification. Mainly, the hexagonal perovskite was found in the catalyst BaTi_0.9Rh_0.1O₃. This modification appears only after Rh-impregnation and calcination of the tetragonal BaTiO₃ thus coexisting the hexagonal perovskite BaTi_(1−x)Rh_xO₃ and the tetragonal BaTiO₃. The catalysts reduction in diluted H₂ containing gas mixtures cause the segregation of Rh° nanoparticles out of the perovskite crystal lattice.

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Nächster Artikel Microwave Cavity Perturbation as a Tool for Laboratory In Situ Measurement of the Oxidation State of Three Way Catalysts

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Titel: H2-Production on New BaTi(1−x)RhxO3 Catalyst via the Steam Reforming of CH4 for H2-SCR Applications
verfasst von: G. C. Mondragón Rodríguez
Y. Gönüllü
B. Saruhan
Publikationsdatum: 01.05.2013
Verlag: Springer US
Erschienen in: Topics in Catalysis / Ausgabe 1-8/2013
Print ISSN: 1022-5528
Elektronische ISSN: 1572-9028
DOI: https://doi.org/10.1007/s11244-013-9986-4

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