Surface Cobalt Silicate and CoO x Cluster Anchored to SBA-15: Highly Efficient for Cyclohexane Partial Oxidation
The present investigation showed that the surface cobalt silicate and CoO x cluster anchored to SBA-15 are highly efficient heterogeneous catalysts for the cyclohexane partial oxidation with air-like O₂ (20%)-N₂ (80%) mixture as oxidant in the continuously stirred tank reactor at 413 K and 1.0 MPa....
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| Published in | Catalysis letters Vol. 136; no. 1-2; pp. 20 - 27 |
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| Main Authors | , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Dordrecht
Boston : Springer US
01.05.2010
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
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| Abstract | The present investigation showed that the surface cobalt silicate and CoO x cluster anchored to SBA-15 are highly efficient heterogeneous catalysts for the cyclohexane partial oxidation with air-like O₂ (20%)-N₂ (80%) mixture as oxidant in the continuously stirred tank reactor at 413 K and 1.0 MPa. Typically, selectivity of 84.6% at cyclohexane conversion of 14.5% can be achieved in a period of 2 h reaction. The performance of Co-catalyst is affected by the nature of Co species introduced to SBA-15. The surface cobalt silicate with higher proportion of “isolated” Co²⁺ sites shows better result than the well dispersed CoO x clusters mainly on the internal surface of SBA-15. Furthermore, different preparation method also influences the porosity of SBA-15 and accessibility to Co sites, which may in turn affect on the reaction performance. Graphical Abstract The surface cobalt silicate and CoOx cluster anchored to SBA-15 are highly efficient for the cyclohexane partial oxidation with air-like O₂(20%)-N₂(80%) mixture as oxidant in the continuously stirred tank reactor at 413 K and 1.0 MPa. Typically, selectivity of 84.6% at cyclohexane conversion of 14.5% can be achieved in a period of 2 h reaction. The catalyst performance is dependent on the nature of Co species introduced to SBA-15. [graphic removed] |
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| AbstractList | The present investigation showed that the surface cobalt silicate and CoO x cluster anchored to SBA-15 are highly efficient heterogeneous catalysts for the cyclohexane partial oxidation with air-like O₂ (20%)-N₂ (80%) mixture as oxidant in the continuously stirred tank reactor at 413 K and 1.0 MPa. Typically, selectivity of 84.6% at cyclohexane conversion of 14.5% can be achieved in a period of 2 h reaction. The performance of Co-catalyst is affected by the nature of Co species introduced to SBA-15. The surface cobalt silicate with higher proportion of “isolated” Co²⁺ sites shows better result than the well dispersed CoO x clusters mainly on the internal surface of SBA-15. Furthermore, different preparation method also influences the porosity of SBA-15 and accessibility to Co sites, which may in turn affect on the reaction performance. Graphical Abstract The surface cobalt silicate and CoOx cluster anchored to SBA-15 are highly efficient for the cyclohexane partial oxidation with air-like O₂(20%)-N₂(80%) mixture as oxidant in the continuously stirred tank reactor at 413 K and 1.0 MPa. Typically, selectivity of 84.6% at cyclohexane conversion of 14.5% can be achieved in a period of 2 h reaction. The catalyst performance is dependent on the nature of Co species introduced to SBA-15. [graphic removed] The present investigation showed that the surface cobalt silicate and CoOx cluster anchored to SBA-15 are highly efficient heterogeneous catalysts for the cyclohexane partial oxidation with air-like O2 (20%)-N2 (80%) mixture as oxidant in the continuously stirred tank reactor at 413 K and 1.0 MPa. Typically, selectivity of 84.6% at cyclohexane conversion of 14.5% can be achieved in a period of 2 h reaction. The performance of Co-catalyst is affected by the nature of Co species introduced to SBA-15. The surface cobalt silicate with higher proportion of “isolated” Co2+ sites shows better result than the well dispersed CoOx clusters mainly on the internal surface of SBA-15. Furthermore, different preparation method also influences the porosity of SBA-15 and accessibility to Co sites, which may in turn affect on the reaction performance.Graphical AbstractThe surface cobalt silicate and CoOx cluster anchored to SBA-15 are highly efficient for the cyclohexane partial oxidation with air-like O2(20%)–N2(80%) mixture as oxidant in the continuously stirred tank reactor at 413 K and 1.0 MPa. Typically, selectivity of 84.6% at cyclohexane conversion of 14.5% can be achieved in a period of 2 h reaction. The catalyst performance is dependent on the nature of Co species introduced to SBA-15. |
| Author | Li, Li Ji, Weijie Wang, Xiaochen van der Knaap, Theo Jin, Chen Li, Hui Pan, Yi van der Stoel, Roland Au, C. T |
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| Snippet | The present investigation showed that the surface cobalt silicate and CoO x cluster anchored to SBA-15 are highly efficient heterogeneous catalysts for the... The present investigation showed that the surface cobalt silicate and CoOx cluster anchored to SBA-15 are highly efficient heterogeneous catalysts for the... |
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| SubjectTerms | Catalysis Catalysts Chemical industry Clusters Cobalt oxides Continuously stirred tank reactors Conversion Cyclohexane Oxidation Porosity Selectivity |
| Title | Surface Cobalt Silicate and CoO x Cluster Anchored to SBA-15: Highly Efficient for Cyclohexane Partial Oxidation |
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