Tuning the reactivity of molybdenum (oxy)carbide catalysts by the carburization degree: CO reduction and anisole hydrodeoxygenation
Molybdenum (oxy)carbide catalysts supported on activated carbon were prepared by a carbothermal hydrogen reduction method without passivation step. Four carburization temperatures (500 °C, 600 °C, 700 °C and 800 °C) were selected to control the catalyst carburization degree based on studies of catal...
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| Published in | Catalysis science & technology Vol. 1; no. 11; pp. 3635 - 3645 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
08.06.2020
|
| Online Access | Get full text |
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| Abstract | Molybdenum (oxy)carbide catalysts supported on activated carbon were prepared by a carbothermal hydrogen reduction method without passivation step. Four carburization temperatures (500 °C, 600 °C, 700 °C and 800 °C) were selected to control the catalyst carburization degree based on studies of catalyst precursor carburization process by TGA-MS and
in situ
XANES. Quasi
in situ
XRD, XAS and XPS revealed that two types of material were produced - molybdenum oxycarbide (500 °C and 600 °C) and molybdenum carbide (700 °C and 800 °C) catalysts. The oxycarbide catalysts are rich in Mo-oxide and Mo-oxycarbide species (MoO
2
and MoO
x
C
y
) and the carbide catalysts rich in Mo-carbide species (α-MoC
1−
x
and β-Mo
2
C) with a certain remaining oxygen atoms. The carbidic and oxophilic Mo sites in the catalysts were respectively probed by CO and N
2
O chemisorption. The structure-performance relationships of these catalysts in CO
2
hydrogenation and anisole hydrodeoxygenation (HDO) were studied. For CO
2
hydrogenation, the carbide catalysts were much active than the oxycarbide catalysts and CO was the main product in all the catalysts. In contrast, the oxycarbide and carbide catalysts displayed comparable activity towards anisole conversion and the main products shifted from a mixture of phenol and benzene to only benzene upon increasing the carburization temperature from 600 °C to 700 °C. These catalytic results demonstrate that the catalytic performance of molybdenum (oxy)carbide material can be effectively tuned by varying the carburization degree and such tuning effect depends on the nature of reactant molecules: the carbidic Mo sites in Mo-carbide species are associated with CO
2
and anisole-to-benzene conversions, and the oxophilic Mo sites in Mo-oxycarbide species are related to anisole-to-phenol conversion.
Structure-performance relations for molybdenum (oxy)carbide catalysts evaluated for CO
2
hydrogenation and anisole hydrodeoxygenation. |
|---|---|
| AbstractList | Molybdenum (oxy)carbide catalysts supported on activated carbon were prepared by a carbothermal hydrogen reduction method without passivation step. Four carburization temperatures (500 °C, 600 °C, 700 °C and 800 °C) were selected to control the catalyst carburization degree based on studies of catalyst precursor carburization process by TGA-MS and
in situ
XANES. Quasi
in situ
XRD, XAS and XPS revealed that two types of material were produced - molybdenum oxycarbide (500 °C and 600 °C) and molybdenum carbide (700 °C and 800 °C) catalysts. The oxycarbide catalysts are rich in Mo-oxide and Mo-oxycarbide species (MoO
2
and MoO
x
C
y
) and the carbide catalysts rich in Mo-carbide species (α-MoC
1−
x
and β-Mo
2
C) with a certain remaining oxygen atoms. The carbidic and oxophilic Mo sites in the catalysts were respectively probed by CO and N
2
O chemisorption. The structure-performance relationships of these catalysts in CO
2
hydrogenation and anisole hydrodeoxygenation (HDO) were studied. For CO
2
hydrogenation, the carbide catalysts were much active than the oxycarbide catalysts and CO was the main product in all the catalysts. In contrast, the oxycarbide and carbide catalysts displayed comparable activity towards anisole conversion and the main products shifted from a mixture of phenol and benzene to only benzene upon increasing the carburization temperature from 600 °C to 700 °C. These catalytic results demonstrate that the catalytic performance of molybdenum (oxy)carbide material can be effectively tuned by varying the carburization degree and such tuning effect depends on the nature of reactant molecules: the carbidic Mo sites in Mo-carbide species are associated with CO
2
and anisole-to-benzene conversions, and the oxophilic Mo sites in Mo-oxycarbide species are related to anisole-to-phenol conversion.
Structure-performance relations for molybdenum (oxy)carbide catalysts evaluated for CO
2
hydrogenation and anisole hydrodeoxygenation. |
| Author | Uslamin, Evgeny A Kosinov, Nikolay Zhu, Jiadong Hensen, Emiel J. M |
| AuthorAffiliation | Laboratory of Inorganic Materials and Catalysis Department of Chemical Engineering and Chemistry Eindhoven University of Technology |
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