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J Hazard Mater


Title:N-doped carbon-modified palladium catalysts with superior water resistant performance for the oxidative removal of toxic aromatics
Author(s):Chen H; Liu Y; Gao R; Dong T; Hou Z; Jing L; Duan E; Deng J; Dai H;
Address:"Beijing Key Laboratory for Green Catalysis and Separation, Key Laboratory of Beijing on Regional Air Pollution Control, Key Laboratory of Advanced Functional Materials, Education Ministry of China, Department of Environmental Chemical Engineering, School of Environmental and Chemical Engineering, Faculty of Environment and Life, Beijing University of Technology, Beijing 100124, China. Beijing Key Laboratory for Green Catalysis and Separation, Key Laboratory of Beijing on Regional Air Pollution Control, Key Laboratory of Advanced Functional Materials, Education Ministry of China, Department of Environmental Chemical Engineering, School of Environmental and Chemical Engineering, Faculty of Environment and Life, Beijing University of Technology, Beijing 100124, China. Electronic address: yxliu@bjut.edu.cn. School of Environmental Science and Engineering, Hebei University of Science and Technology, Shijiazhuang, Hebei 050018, China. Beijing Key Laboratory for Green Catalysis and Separation, Key Laboratory of Beijing on Regional Air Pollution Control, Key Laboratory of Advanced Functional Materials, Education Ministry of China, Department of Environmental Chemical Engineering, School of Environmental and Chemical Engineering, Faculty of Environment and Life, Beijing University of Technology, Beijing 100124, China. Electronic address: hxdai@bjut.edu.cn"
Journal Title:J Hazard Mater
Year:2022
Volume:20220611
Issue:
Page Number:129358 -
DOI: 10.1016/j.jhazmat.2022.129358
ISSN/ISBN:1873-3336 (Electronic) 0304-3894 (Linking)
Abstract:"The supported palladium catalysts perform well in the oxidative removal of hazardous aromatic hydrocarbons. However, water vapor can seriously deactivate the catalysts especially in the low-temperature regime. Hence, improving moisture resistance of the Pd-based catalysts is full of challenge in the removal of aromatics. Herein, we report a new type of Pd@NC/BN catalysts featured with nitrogen-doped carbon layers modified Pd supported on hexagonal boron nitride (h-BN), and the relationship between structure and water resistance of the catalysts. The results show that in the presence of 10 vol% H(2)O in the feedstock, the Pd@NC/BN catalyst could effectively oxidize o-xylene (with an almost 87% removal efficiency), whereas o-xylene conversion declined from 69% to 20% over the conventional Pd/Al(2)O(3) at a reaction temperature of 210 degrees C and a space velocity of 40,000 mL/(g h). The adsorption of H(2)O was significantly inhibited on the nitrogen-doped carbon layers due to the hydrophobic nature. Meanwhile, the oxygen species active for o-xylene oxidation were not only from the adsorbed gas-phase oxygen but also from the new active oxygen (*OOH and *OH) species that were generated via the interaction of O(2) and H(2)O in the presence of water in the feedstock. It is concluded that the reactive oxygen species that accelerated the activation and cleavage of C-H bonds significantly facilitated the conversion of key intermediate species (from benzaldehyde to benzoic acid), thus playing a decisive role in o-xylene oxidation. The present work provides a direction for developing the superior water resistance catalysts with hydrophobic nature and good water activation ability in the oxidative removal of volatile organic compounds"
Keywords:Hydrothermal stability Hydroxyl species Nitrogen-doped carbon layer Palladium-based catalyst o-Xylene oxidation;
Notes:"PubMed-not-MEDLINEChen, Hualian Liu, Yuxi Gao, Ruyi Dong, Tiantian Hou, Zhiquan Jing, Lin Duan, Erhong Deng, Jiguang Dai, Hongxing eng Netherlands 2022/06/19 J Hazard Mater. 2022 Sep 5; 437:129358. doi: 10.1016/j.jhazmat.2022.129358. Epub 2022 Jun 11"

 
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