Potassium-Promoted Three-Dimensional Mesoporous Pt/MnO2 for Formaldehyde Elimination at Zero Degree

In this work, three-dimensional mesoporous MnO2, K/MnO2, Pt/MnO2 and K-Pt/MnO2 catalysts were prepared through hard-template method. The additional K/Pt had significantly improved the HCHO oxidation activity. The K-Pt/MnO2 catalyzed complete HCHO oxidation was achieved at 0℃ with space velocity (GHS...

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Veröffentlicht in:	Journal of the Chemical Society of Pakistan 2020-04, Vol.42 (2), p.188-188
Hauptverfasser:	Shengnan Guan, Shengnan Guan, Wenzhi Li, Wenzhi Li, Jianru Ma, Jianru Ma, Qingchuan Liu, Qingchuan Liu, Kun Chen and Qi Zhang, Kun Chen and Qi Zhang
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Sprache:	eng
Schlagworte:	Formaldehyde
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container_title	Journal of the Chemical Society of Pakistan
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creator	Shengnan Guan, Shengnan Guan Wenzhi Li, Wenzhi Li Jianru Ma, Jianru Ma Qingchuan Liu, Qingchuan Liu Kun Chen and Qi Zhang, Kun Chen and Qi Zhang
description	In this work, three-dimensional mesoporous MnO2, K/MnO2, Pt/MnO2 and K-Pt/MnO2 catalysts were prepared through hard-template method. The additional K/Pt had significantly improved the HCHO oxidation activity. The K-Pt/MnO2 catalyzed complete HCHO oxidation was achieved at 0℃ with space velocity (GHSV) at 50000 ml/(gand#183;h). With the excellent catalytic performance, K-Pt/MnO2 exhibited a higher ratio of Oads(surface adsorbed oxygen)/Olatt(surface lattice oxygen) and Mn3+/Mn4+ ions than the other catalysts. Meanwhile, it was still stable after running a 70h reaction. Overall, the K-Pt/MnO2 was a promising material for HCHO elimination.
doi_str_mv	10.52568/000638
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The additional K/Pt had significantly improved the HCHO oxidation activity. The K-Pt/MnO2 catalyzed complete HCHO oxidation was achieved at 0℃ with space velocity (GHSV) at 50000 ml/(gand#183;h). With the excellent catalytic performance, K-Pt/MnO2 exhibited a higher ratio of Oads(surface adsorbed oxygen)/Olatt(surface lattice oxygen) and Mn3+/Mn4+ ions than the other catalysts. Meanwhile, it was still stable after running a 70h reaction. 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title	Potassium-Promoted Three-Dimensional Mesoporous Pt/MnO2 for Formaldehyde Elimination at Zero Degree
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