CO oxidation activity of Pt/CeO2 catalysts below 0 °C: platinum loading effects

[Display omitted] •Catalyst with 1 wt% of Pt in ceria enables CO oxidation only at T > 100 °C.•Pt/CeO2 catalysts with 8 and 20 wt% Pt loading mediate CO oxidation below 0 °C.•CO oxidation above room temperature occurs with participation of mobile lattice oxygen.•CO oxidation below 0 °C is propose...

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Published in:Applied catalysis. B, Environmental Environmental, 2021-06, Vol.286, p.119931, Article 119931
Main Authors: Boronin, Andrei I., Slavinskaya, Elena M., Figueroba, Alberto, Stadnichenko, Andrey I., Kardash, Tatyana Yu, Stonkus, Olga A., Fedorova, Elizaveta A., Muravev, Valerii V., Svetlichnyi, Valery A., Bruix, Albert, Neyman, Konstantin M.
Format: Article
Language:English
Subjects:
Ambient temperature
Carbon monoxide
Catalysts
Cerium oxides
Climate
Cold weather
DFT calculations
Energy efficiency
Low temperature
Low-temperature CO oxidation
Operating temperature
Oxidation
Platinum
Pollutants
Pt/CeO2
PtOx
Single atom
Temperature
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Summary:[Display omitted] •Catalyst with 1 wt% of Pt in ceria enables CO oxidation only at T > 100 °C.•Pt/CeO2 catalysts with 8 and 20 wt% Pt loading mediate CO oxidation below 0 °C.•CO oxidation above room temperature occurs with participation of mobile lattice oxygen.•CO oxidation below 0 °C is proposed to occur via weakly co-adsorbed O2 and CO on PtOx clusters. Reducing the operating temperature of oxidation catalysts is important for designing energy efficient processes, extending catalyst lifetime, and abating pollutants, especially in cold climates. Herein, high CO oxidation activity at sub-ambient temperatures is reported for Pt/CeO2 catalysts with high content of Pt in the form of dispersed Pt2+ and Pt4+ centers. Whereas the reference 1 wt%Pt catalyst was active for CO oxidation only above 100ᵒC, the 8 and 20 wt%Pt catalysts converted 60 and 90 % of CO, respectively, below 0ᵒC. Ionic platinum was shown to facilitate oxygen release from ceria and lower the light-off temperature of the reaction occurring through the Mars-van-Krevelen mechanism. However, the remarkable activity observed at sub-ambient temperatures for the ≥8 wt%Pt catalysts is proposed to involve O2 and CO reactants weakly adsorbed on PtOx clusters. The synergies between ionic platinum and nanostructured ceria reported in this work advance the knowledge-driven design of catalysts for low-temperature oxidation reactions.
ISSN:0926-3373
1873-3883
DOI:10.1016/j.apcatb.2021.119931