Co-ETS-10 and Co-AM-6 as active catalysts for the oxidation of styrene to styrene oxide and benzaldehyde using molecular oxygen

Pristine ETS-10 and AM-6 and their Co2＋-exchanged forms were prepared, and their catalytic activi- ties toward the oxidation of styrene in oxygen atmosphere were studied in dimethylformamide. The catalysts were denoted as Co-E10-n （n = 0, 9, 26, 68, 81） and Co-A6-m （m= 0, 8, 23, 63, 79）, where n and...

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Veröffentlicht in:	Chinese journal of catalysis 2015, Vol.36 (6), p.897-905
Hauptverfasser:	Datta, Shuvo Jit, Yoon, Kyung Byung
Format:	Artikel
Sprache:	chi
Schlagworte:	Benzaldehyde Catalysis Catalysts Catalytic activity N催化剂 Oxidation Oxides Styrenes Zeolites 二氧化碳二甲基甲酰胺介孔二氧化硅分子氧活性催化剂苯乙烯氧化物苯甲醛
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description	Pristine ETS-10 and AM-6 and their Co2＋-exchanged forms were prepared, and their catalytic activi- ties toward the oxidation of styrene in oxygen atmosphere were studied in dimethylformamide. The catalysts were denoted as Co-E10-n （n = 0, 9, 26, 68, 81） and Co-A6-m （m= 0, 8, 23, 63, 79）, where n and rn denote the degree of Co2. exchange. The products of the oxidation process were identified as styrene epoxide （E） and benzaldehyde （B）. Both the pristine forms, ETS-10 （Co-E10-0） and AM-6 （Co-A6-0）, and Co2＋-exchanged forms displayed catalytic activities. With increasing n or m, the con- version, and hence the rate, increased. Specifically, the rates varied from 6.1 to 12.5 mmol·g^-1·h^-1 with increasing n （Co-E10-n catalysts） and from 5.4 to 12.4 mmol·g^-1·h^-1 with increasing m （Co-A6-m catalysts）. In contrast, the E/B ratio decreased with increasing n or m. More specifically, the E/B ratio decreased from 2.1 to 0.1 with increasing n from 0 to 81 （Co-E10-n catalysts） and from 1.3 to 0.1 with increasing m from
doi_str_mv	10.1016/S1872-2067(15)60864-6
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subjects	Benzaldehyde Catalysis Catalysts Catalytic activity N催化剂 Oxidation Oxides Styrenes Zeolites 二氧化碳二甲基甲酰胺介孔二氧化硅分子氧活性催化剂苯乙烯氧化物苯甲醛
title	Co-ETS-10 and Co-AM-6 as active catalysts for the oxidation of styrene to styrene oxide and benzaldehyde using molecular oxygen
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