The Characteristics of Direct Hydroxylation of Benzene to Phenol with Molecular Oxygen Enhanced by Pulse DC Corona at Atmospheric Pressure |
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| Authors: | Lee Dae-Won Lee Jung-Hyun Chun Bae-Hyeock Lee Kwan-Young |
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| Affiliation: | (1) Department of Chemical and Biological Engineering, Applied Rheology Center, Korea University, Anam-dong, Sungbuk-ku, Seoul, 136–701, Korea;(2) Institute of Automotive Technology, Younsei University, 134, Shinchon-dong, Seodaemun-ku, Seoul, 120–749, Korea |
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| Abstract: | ![]()
The direct hydroxylation of benzene using molecular oxygen by atmospheric pulse DC corona discharge was investigated. The conversion of benzene increased with the increase of oxygen content and input voltage but the selectivity of phenol decreased due to the formation of polymerized products. The reactivity was also influenced by the kind and content of background inert gas. By using argon as background gas, we could get 2.2% of phenol yield at 60°C and 1 atm with energy consumption of 50 W. The strategy of reductive oxidation, which added hydrogen to the reactant, was not favorable to the phenol formation in this reaction system. The polymerized product showed the oligomeric character and the analysis of its chemical structure with FT–IR was presented. |
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| Keywords: | hydroxylation of benzene direct phenol synthesis non-thermal plasma pulse DC corona atmospheric discharge metastable atom Penning activation reductive oxidation |
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