Abstract
We investigated the structural evolution of molybdenum carbides subjected to hot aqueous environments and their catalytic performance in low-temperature hydroprocessing of acetic acid. While bulk structures of Mo carbides were maintained after aging in hot liquid water, a portion of carbidic Mo sites were converted to oxidic sites. Water aging also induced changes to the non-carbidic carbon deposited during carbide synthesis and increased surface roughness, which in turn affected carbide pore volume and surface area. The extent of these structural changes was sensitive to the initial carbide structure and was lower under actual hydroprocessing conditions indicating the possibility of further improving the hydrothermal stability of Mo carbides by optimizing catalyst structure and operating conditions. Mo carbides were active in acetic acid conversion in the presence of liquid water, their activity being comparable to that of Ru/C. The results suggest that effective and inexpensive bio-oil hydroprocessing catalysts could be designed based on Mo carbides, although a more detailed understanding of the structure-performance relationships is needed, especially in upgrading of more complex reaction mixtures or real bio-oils.
Original language | English |
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Pages (from-to) | 406-423 |
Number of pages | 18 |
Journal | Catalysts |
Volume | 5 |
Issue number | 1 |
DOIs | |
State | Published - Mar 13 2015 |
Keywords
- Acetic acid hydrogenation
- Bio-oil
- Biomass
- Heterogeneous catalysis
- Hydroprocessing
- MoC
- Molybdenum carbide
- Pyrolysis oil