Catalytic ozone oxidation of benzene at low temperature over MnOx/Al-SBA-16 catalyst

Catalytic ozone oxidation of benzene at low temperature over MnOx/Al-SBA-16 catalyst

The low-temperature catalytic ozone oxidation of benzene was investigated. In this study, Al-SBA-16 (Si/Al = 20) that has a three-dimensional cubic Im3m structure and a high specific surface area was used for catalytic ozone oxidation for the first time. Two different Mn precursors, i.e., Mn acetate...

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Veröffentlicht in:Nanoscale research letters 2012-01, Vol.7 (1), p.14-14, Article 14
Hauptverfasser: Park, Jong Hwa, Kim, Ji Man, Jin, Mingshi, Jeon, Jong-Ki, Kim, Seung-Soo, Park, Sung Hoon, Kim, Sang Chai, Park, Young-Kwon
Format: Artikel
Sprache:eng
Schlagworte:
Chemistry and Materials Science
IFFM&AFM2011
Materials Science
Molecular Medicine
Nano Express
Nanochemistry
Nanoscale Science and Technology
Nanotechnology
Nanotechnology and Microengineering
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Zusammenfassung:The low-temperature catalytic ozone oxidation of benzene was investigated. In this study, Al-SBA-16 (Si/Al = 20) that has a three-dimensional cubic Im3m structure and a high specific surface area was used for catalytic ozone oxidation for the first time. Two different Mn precursors, i.e., Mn acetate and Mn nitrate, were used to synthesize Mn-impregnated Al-SBA-16 catalysts. The characteristics of these two catalysts were investigated by instrumental analyses using the Brunauer-Emmett-Teller method, X-ray diffraction, X-ray photoelectron spectroscopy, and temperature-programmed reduction. A higher catalytic activity was exhibited when Mn acetate was used as the Mn precursor, which is attributed to high Mn dispersion and a high degree of reduction of Mn oxides formed by Mn acetate than those formed by Mn nitrate.
ISSN:1556-276X
1931-7573
1556-276X
DOI:10.1186/1556-276X-7-14