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Nature of the Pt-Cobalt-Oxide surface interaction and its role in the CO2 Methanation

Anastasiia Efremova, Imre Szenti, János Kiss, Ákos Szamosvölgyi, András Sápi, Kornélia Baán, Luca Olivi, Gábor Varga, Zsolt Fogarassy, B. Pécz, Ákos Kukovecz, Zoltán Kónya

2021Applied Surface Science49 citationsDOIOpen Access PDF

Abstract

Based on our previous investigations, it turned out that the Co3O4 material is a promising catalyst in the ambient pressure CO2 methanation. This work aims at understanding the Pt-Cobalt-Oxide surface interaction and its effect on the catalytic performance. The incorporation of Pt nanoparticles into the mesoporous Co3O4 (Pt/m-Co3O4) and commercial Co3O4 (Pt/c-Co3O4) improves the catalytic activity of both catalysts by a factor of ∼ 1.4 and ∼ 1.9 respectively at 673 K. The same tendency towards the increased basicity was also observed. Morphology-induced surface basicity was previously shown to play a key role in determining the catalytic activity of free-standing supports. From HR-TEM (-EDX), EXAFS, CO2-TPD, and CO chemisorption measurements it was established that during the pre-treatment, Co-Pt alloy particles partially covered by the CoxOy layer are formed. It has been postulated that this structure transformation generates new basic centres, the amount of which per unit surface area is significantly larger for Pt/c-Co3O4 and this in turn is responsible for the higher enhancement effect of the Pt/c-Co3O4 catalyst in the CO2 methanation. This study emphasizes the importance of the surface structure exploration for the dynamic catalytic systems in order to reach maximum activity and selectivity in the CO2 methanation.

Topics & Concepts

MethanationCatalysisCobalt oxideChemisorptionCobaltChemical engineeringOxideSelectivityMaterials scienceFischer–Tropsch processChemistryInorganic chemistryTransition metalMetallurgyOrganic chemistryEngineeringCatalysts for Methane ReformingCatalytic Processes in Materials ScienceCarbon dioxide utilization in catalysis
Nature of the Pt-Cobalt-Oxide surface interaction and its role in the CO2 Methanation | Litcius