Catalytic Degradation of Toluene over MnO2/LaMnO3: Effect of Phase Type of MnO2 on Activity

Catalytic Degradation of Toluene over MnO2/LaMnO3: Effect of Phase Type of MnO2 on Activity

Series of α, β, γ, δ type MnO2 supported on LaMnO3 perovskite was developed by a one-pot synthesis route. Compared with α-MnO2, β-MnO2, γ-MnO2, δ-MnO2 and LaMnO3 oxides, all MnO2/LaMnO3 showed promotional catalytic performance for toluene degradation. Among them, α-MnO2/LaMnO3 holds the best active...

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Veröffentlicht in:Catalysts 2022-12, Vol.12 (12), p.1666
Hauptverfasser: Li, Lu, Liu, Yuwei, Liu, Jingyin, Zhou, Bing, Guo, Mingming, Liu, Lizhong
Format: Artikel
Sprache:eng
Schlagworte:
Carbon dioxide
Catalysts
Catalytic oxidation
Chemical reactions
degradation path
Lanthanum compounds
Low temperature
Manganese dioxide
Membrane separation
Metal oxides
Mineralization
Morphology
Oxidation
Performance degradation
perovskite
Perovskites
phase type
Pollutants
Toluene
VOCs
Volatile organic compounds
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Zusammenfassung:Series of α, β, γ, δ type MnO2 supported on LaMnO3 perovskite was developed by a one-pot synthesis route. Compared with α-MnO2, β-MnO2, γ-MnO2, δ-MnO2 and LaMnO3 oxides, all MnO2/LaMnO3 showed promotional catalytic performance for toluene degradation. Among them, α-MnO2/LaMnO3 holds the best active and mineralization efficiency. By the analysis of N2 adsorption-desorption, XPS and H2-TPR, it can be inferred that the improved activity should be ascribed to the higher proportion of lattice oxygen, better low-temperature reducibility and larger specific surface area. Besides, the byproducts from the low-temperature reaction of toluene oxidation were detected by a TD/GC-MS, confirming the presence of the intermediates. Combined with the in-situ DRIFTS, the catalytic degradation path of toluene oxidation has also been discussed in depth.
ISSN:2073-4344
2073-4344
DOI:10.3390/catal12121666