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Hydrogenating activity of Pt/zeolite catalysts focusing acid support and metal dispersion influence

•Hydrogenating activity per total adsorbing sites depends on the zeolite.•Pt acid sites proximity may lead to higher hydrogen spillover efficiency.•Pt zeolite catalysts exhibit increasing TOF with increasing accessible Pt.•Activity per total adsorbing sites is proposed as a faithful measure. Toluene...

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Published in:Applied catalysis. A, General General, 2015-09, Vol.504, p.17-28
Main Authors: Mendes, Pedro S.F., Lapisardi, Grégory, Bouchy, Christophe, Rivallan, Mickaël, Silva, João M., Ribeiro, M. Filipa
Format: Article
Language:English
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Summary:•Hydrogenating activity per total adsorbing sites depends on the zeolite.•Pt acid sites proximity may lead to higher hydrogen spillover efficiency.•Pt zeolite catalysts exhibit increasing TOF with increasing accessible Pt.•Activity per total adsorbing sites is proposed as a faithful measure. Toluene hydrogenation was studied over catalysts based on Pt supported on large pore zeolites (HUSY and HBEA) with different metal/acid ratios. Acidity of zeolites was assessed by pyridine adsorption followed by FTIR showing only small changes before and after Pt introduction. Metal dispersion was determined by H2–O2 titration and verified by a linear correlation with the intensity of Pt0–CO band obtained by in situ FTIR. It was also observed that the electronic properties of Pt0 clusters were similar for the different catalysts. Catalytic tests showed rapid catalyst deactivation with an activity loss of 80–95% after 60min of reaction. The turnover frequency of fresh catalysts depended both on metal dispersion and the support. For the same support, it changed by a 1.7-fold (HBEA) and 4.0-fold (HUSY) showing that toluene hydrogenation is structure-sensitive, i.e. hydrogenating activity is not a unique function of accessible metal. This was proposed to be due to the contribution to the overall activity of the hydrogenation of adsorbed toluene on acid sites via hydrogen spillover. Taking into account the role of zeolite acidity, the catalysts series were compared by the activity per total adsorbing sites which was observed to increase steadily with nPt/(nPt+nA). An increase of the accessible Pt atoms leads to an increase on the amount of spilled over hydrogen available in acid sites therefore increasing the overall activity. Pt/HBEA catalysts were found to be more active per total adsorbing site than Pt/HUSY which is proposed to be due to an augmentation in the efficiency of spilled over hydrogen diffusion related to the proximity between Pt clusters and acid sites. The intervention of Lewis acid sites in a greater extent than that measured by pyridine adsorption may also contribute to this higher activity of Pt/HBEA catalysts. These results reinforce the importance of model reactions as a closer perspective to the relevant catalyst properties in reaction conditions.
ISSN:0926-860X
1873-3875
DOI:10.1016/j.apcata.2015.03.027