Higher alcohol synthesis over nickel-modified alkali-doped molybdenum sulfide catalysts prepared by conventional coprecipitation and coprecipitation in microemulsions

•A novel K-Ni-MoS2 catalyst was synthetized by coprecipitation in microemulsions.•The novel catalyst shows better performance than a conventional K-Ni-MoS2 sample.•Ethanol yield is especially enhanced with the new preparation method.•The greater enrichment of K and Ni on the surface could explain th...

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Published in:Catalysis today 2015-12, Vol.258, p.294-303
Main Authors: Suárez París, Rodrigo, Montes, Vicente, Boutonnet, Magali, Järås, Sven
Format: Article
Language:English
Subjects:
Higher alcohols
K/MoS2
Microemulsion
Nickel
Syngas
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creator Suárez París, Rodrigo
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description •A novel K-Ni-MoS2 catalyst was synthetized by coprecipitation in microemulsions.•The novel catalyst shows better performance than a conventional K-Ni-MoS2 sample.•Ethanol yield is especially enhanced with the new preparation method.•The greater enrichment of K and Ni on the surface could explain the improvement. Ethanol and higher alcohols are one of the most interesting alternatives to replace fossil fuels in the transportation sector. Nickel-modified alkali-doped molybdenum sulfide is a potential catalyst for the conversion of syngas to mixed alcohols. In this work, K-Ni-MoS2 catalysts were synthetized by coprecipitation in aqueous solution or in microemulsions, followed by alkali doping. The influence of the preparation route in CO hydrogenation was investigated at 91bar, 340/370°C and GHSV=2000–14,000NmL/hgcatalyst. The catalysts were also characterized by TGA, ICP, XPS, nitrogen adsorption, XRD, SEM-EDX and TEM. The novel microemulsion catalyst outperformed the conventional one, resulting in higher yields of ethanol and higher alcohols. The higher activity and selectivity was attributed to a higher concentration of promoters on the microemulsion catalyst surface, together with a lower degree of crystallinity.
doi_str_mv 10.1016/j.cattod.2014.12.003
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1873-4308
1873-4308
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subjects Higher alcohols
K/MoS2
Microemulsion
Nickel
Syngas
title Higher alcohol synthesis over nickel-modified alkali-doped molybdenum sulfide catalysts prepared by conventional coprecipitation and coprecipitation in microemulsions
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