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Environ Technol

Title:		Low-temperature degradation of toluene over Ag-MnO(x)-ACF composite catalyst
Author(s):		Shi J; Liu Q; Liu R; Zhao D; Xu X; Cui J; Ding H;
Address:		"School of Environmental Science and Engineering, Tianjin University, Tianjin, People's Republic of China"
Journal Title:		Environ Technol
Year:		2023
Volume:		44
Issue:		5
Page Number:		647 - 658
DOI:		10.1080/09593330.2021.1980830
ISSN/ISBN:		1479-487X (Electronic) 0959-3330 (Linking)
Abstract:		"Volatile organic compounds (VOCs) have caused a serious threat to the atmosphere and human health. Therefore, it is of great significance to exploit effective catalytic materials for the safe and effective catalytic elimination of VOCs. Herein, Ag-MnO(x)-ACF composite catalysts were constructed via a two-step impregnation strategy and used for catalytic toluene degradation. A remarkable low-temperature catalytic activity (T(100 )= 50?SG), excellent stability, as well as CO(2) selectivity (80%) were achieved over the Ag-MnO(x)-ACF catalyst. A series of characterizations indicated that the unique manganese defects structure of birnessite phase manganese oxide played an essential role for toluene oxidation, which was conducive to generating surface adsorbed oxygen. The higher ratio of Mn(3+)/Mn(4+), abundant surface adsorbed oxygen and highly dispersed Ag species were determined to significantly facilitate toluene degradation. The mechanism of efficient degradation of toluene at low temperature was proposed. O(3) and H(2)O molecules were activated via surface hydroxyl and Mn defects on Ag-MnO(x)-ACF to produce sufficient *OH, enhancing the degradation performance of toluene. We provide a new idea for the catalytic oxidation of benzene VOCs at low even room temperatures"
Keywords:		Humans Temperature *Toluene/chemistry *Oxides/chemistry Oxidation-Reduction Manganese Oxygen Catalysis Toluene degradation catalytic ozonation low-temperature catalysis manganese defects surface hydroxyl;
Notes:		"MedlineShi, Jiahui Liu, Qiang Liu, Rui Zhao, Dan Xu, Ximeng Cui, Jiahao Ding, Hui eng England 2021/09/14 Environ Technol. 2023 Feb; 44(5):647-658. doi: 10.1080/09593330.2021.1980830"