Reaction and Characterization of Low-Temperature Effect of Transition Nanostructure Metal Codoped SCR Catalyst

Reaction and Characterization of Low-Temperature Effect of Transition Nanostructure Metal Codoped SCR Catalyst

Typical p-type semiconductor MnOx codoped with n-type semiconductors such as CeO2 and V2O5 was reported to achieve high efficiency in catalytic NOx removal by NH3. In this paper, we present novel Mn-Ce codoped V2O5/TiO2 catalyst which exhibited an excellent NO conversion efficiency of 90% at 140°C....

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Veröffentlicht in:Journal of nanomaterials 2017-01, Vol.2017 (2017), p.1-10
Hauptverfasser: Cai, Lulu, Pu, Peng, Cao, Li, Guo, Hao, Luo, Yan, Bai, Jiaojiao, Xu, Quan, Xiao, Weiwei, Yang, Ke, Cai, Wei
Format: Artikel
Sprache:eng
Schlagworte:
Catalysis
Catalysts
Catalytic oxidation
Chemistry
Denitration
Electron transfer
Emissions
Flue gas
Gases
Industrial plant emissions
Laboratories
Low temperature
Methods
N-type semiconductors
Nanomaterials
Nitrates
Outdoor air quality
P-type semiconductors
Temperature effects
Titanium oxides
Vanadium pentoxide
X ray photoelectron spectroscopy
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Zusammenfassung:Typical p-type semiconductor MnOx codoped with n-type semiconductors such as CeO2 and V2O5 was reported to achieve high efficiency in catalytic NOx removal by NH3. In this paper, we present novel Mn-Ce codoped V2O5/TiO2 catalyst which exhibited an excellent NO conversion efficiency of 90% at 140°C. By using this codoped catalyst, the best low-temperature activity was greatly decreased when compared with single Mn- or Ce-doped catalyst. According to the characterization results from BET, XRD, and XPS, the codoped catalyst was composed of both CeO2 and amorphous Mn. The electron circulation formed between doping elements is believed to promote the electron transfer, which may be one of the reasons for excellent low-temperature denitration performance.
ISSN:1687-4110
1687-4129
DOI:10.1155/2017/7901686