NOx Storage on BaTi0.8Cu0.2O3 Perovskite Catalysts: Addressing a Feasible Mechanism

NOx Storage on BaTi0.8Cu0.2O3 Perovskite Catalysts: Addressing a Feasible Mechanism

The NOx storage mechanism on BaTi0.8Cu0.2O3 catalyst were studied using different techniques. The results obtained by XRD, ATR, TGA and XPS under NOx storage–regeneration conditions revealed that BaO generated on the catalyst by decomposition of Ba2TiO4 plays a key role in the NOx storage process. I...

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Veröffentlicht in:Nanomaterials (Basel, Switzerland) Switzerland), 2021-08, Vol.11 (8), p.2133
Hauptverfasser: Albaladejo-Fuentes, Vicente, Sánchez-Adsuar, María-Salvadora, Anderson, James A., Illán-Gómez, María-José
Format: Artikel
Sprache:eng
Schlagworte:
Adsorption
Atmosphere
Barium
Barium oxides
barium-titanium perovskite
Catalysts
Engines
Gas flow
Gases
High temperature
in situ DRIFTS
Nitrates
Nitrites
Nitrogen dioxide
NOx storage mechanism
Oxidation
Perovskites
Radiation
Regeneration
Spectrum analysis
Temperature dependence
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Zusammenfassung:The NOx storage mechanism on BaTi0.8Cu0.2O3 catalyst were studied using different techniques. The results obtained by XRD, ATR, TGA and XPS under NOx storage–regeneration conditions revealed that BaO generated on the catalyst by decomposition of Ba2TiO4 plays a key role in the NOx storage process. In situ DRIFTS experiments under NO/O2 and NO/N2 show that nitrites and nitrates are formed on the perovskite during the NOx storage process. Thus, it seems that, as for model NSR catalysts, the NOx storage on BaTi0.8Cu0.2O3 catalyst takes place by both “nitrite” and “nitrate” routes, with the main pathway being highly dependent on the temperature and the time on stream: (i) at T < 350 °C, NO adsorption leads to nitrites formation on the catalyst and (ii) at T > 350 °C, the catalyst activity for NO oxidation promotes NO2 generation and the nitrate formation.
ISSN:2079-4991
2079-4991
DOI:10.3390/nano11082133