Decomposition and aromatization of ethanol on ZSM-based catalysts.
|
| Abstract | The adsorption, desorption, and reactions of ethanol have been investigated on pure and promoted ZSM-5 catalysts. FTIR spectroscopy indicated the formation of a strongly bonded ethoxy species on ZSM-5(80) at 300 K. TPD experiments following the adsorption of ethanol on both ZSM-5 and Mo2C/ZSM-5 have shown desorption profiles corresponding to unreacted ethanol and decomposition products (H2O, H2, CH3CHO, C4H10O, and C2H4). The main reaction pathway of ethanol on pure ZSM-5 is the dehydration reaction yielding ethylene, small amounts of hydrocarbons, and aromatics. Deposition of different additives, such as Mo2C, ZnO, and Ga2O3 on zeolite, greatly promoted the formation of benzene and toluene at 773-973 K, very likely by catalyzing the aromatization of ethylene formed in the dehydration process of ethanol. Separate studies of the reaction of ethylene revealed that the previous additives markedly enhanced the selectivity and the yield of aromatics on ZSM-5. |
|---|---|
| Authors | R Barthos, A Széchenyi, F Solymosi (Affiliation: Institute of Solid State and Radiochemistry, University of Szeged and Reaction Kinetics Research Group of the Hungarian Academy of Sciences, PO Box 168, H-6701 Szeged, Hungary.) |
| Journal | The journal of physical chemistry. B (J Phys Chem B) Vol. 110 Issue 43 Pg. 21816-25 (Nov 2 2006) ISSN: 1520-6106 [Print] United States |
| PMID | 17064145 (Publication Type: Journal Article) |
Join CureHunter, for free Research Interface BASIC access!
Realize the full power of the drug-disease research network!
Research Interface PRO additionally includes drill-down to evidence, articles by author, export to Excel, FDA Link and mobile subscription:
1 year subscription, $45.00 USD
