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Atomically-ordered active sites in NiMo intermetallic compound toward low-pressure hydrodeoxygenation of furfural

Wei Liu, Yusen Yang, Lifang Chen, Enze Xu, Jiaming Xu, Song Hong, Xin Zhang, Min Wei

2020Applied Catalysis B: Environmental195 citationsDOIOpen Access PDF

Abstract

Activation of oxygen-containing functional groups plays a key role in sustainable biomass upgrading and conversion. In this work, a NiMo intermetallic compound (IMC) catalyst was prepared based on layered double hydroxides (LDHs) precursors, which displayed prominent catalytic performance for furfural hydrodeoxygenation (HDO) to 2-methylfuran (2-MF) (yield: 99 %) at a rather low hydrogen pressure (0.1 MPa), significantly superior to NiMo alloy, monometallic Ni and other Ni-based catalysts ever reported. CO-IR, STEM, EXAFS and XANES give direct evidences that the atomically-ordered Ni/Mo sites in NiMo IMC determine the uniform bridging-type adsorption mode of C O bond in furfural whilst adsorption of furan ring is extremely suppressed. In situ FT-IR and DFT calculation further substantiate that ordered Ni-Mo bimetallic sites of IMC, in contrast to the random atomic sequence in NiMo alloy, facilitate the activation and cleavage of C OH bond in the intermediate (furfuryl alcohol, FOL), accounting for the production of 2-MF. This work demonstrates the decisive effect of atomically-ordered active sites in IMC catalyst on activation of oxygen-containing functional groups and product selectivity, which can be extended to catalytic upgrading of biomass-derived platform molecules.

Topics & Concepts

HydrodeoxygenationFurfuralCatalysisFurfuryl alcoholBimetallic stripIntermetallicAlloyMaterials scienceExtended X-ray absorption fine structureChemical engineeringVanadiumChemistryInorganic chemistrySelectivityOrganic chemistryMetallurgyAbsorption spectroscopyQuantum mechanicsPhysicsEngineeringCatalysis for Biomass ConversionCatalysis and Hydrodesulfurization StudiesNanomaterials for catalytic reactions
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