MnO x Catalyst with High‐Efficiency Degradation Behavior of Toluene: Effect of Cryptomelane

MnO x Catalyst with High‐Efficiency Degradation Behavior of Toluene: Effect of Cryptomelane

A series of MnO x catalysts were prepared by hydrothermal reaction of different pH values, which proved the important influence of preparation conditions on the structure and performance of the catalysts. The results proved that the cryptomelane MnO x catalyst with a pH of 10 (Cat‐2) exhibited the m...

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Veröffentlicht in:ChemistrySelect (Weinheim) 2022-02, Vol.7 (5)
Hauptverfasser: Zhang, Xuejun, Wu, Yinghan, Qin, Chenghua, Zhang, Zhuofu, Liu, Wei, Liu, Zepeng, Liu, Chunyu, Zhu, Xinfeng, Song, Zhongxian
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container_issue 5
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container_title ChemistrySelect (Weinheim)
container_volume 7
creator Zhang, Xuejun
Wu, Yinghan
Qin, Chenghua
Zhang, Zhuofu
Liu, Wei
Liu, Zepeng
Liu, Chunyu
Zhu, Xinfeng
Song, Zhongxian
description A series of MnO x catalysts were prepared by hydrothermal reaction of different pH values, which proved the important influence of preparation conditions on the structure and performance of the catalysts. The results proved that the cryptomelane MnO x catalyst with a pH of 10 (Cat‐2) exhibited the most outstanding performance in catalyzing toluene. The appearance of cryptomelane on Cat‐2 would reduce the chemical valence of Mn, which could increase the content of Mn 3+ and the amount of oxygen vacancies. With the increase of Mn 3+ , the Mn−O bond was broken more easily, and then facilitated the mobility oxygen species, causing the promotion of the catalytic activity. Low‐valence manganese, high‐capacity oxygen vacancies and maximum concentration of lattice oxygen were the most important reasons for the best catalytic activity of Cat‐2. According to the results of in‐situ DRIFT, benzyl, benzaldehyde, benzoic acid were the main intermediate products, which followed the Mars‐van Krevelen mechanism.
doi_str_mv 10.1002/slct.202104105
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