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CO2 hydrogenation to higher hydrocarbons on K/Fe-Al-O spinel catalysts promoted with Si, Ti, Zr, Hf, Mn and CeElectronic supplementary information (ESI) available: Tables containing detailed results of catalyst testing experiments. See DOI: 10.1039/c7cy01118k

Metal oxides grafted on K/Fe-Al-O spinel precursors prepared by co-precipitation in the presence of the surfactant CTAB displayed significant effects on the performance of the catalysts in CO 2 hydrogenation to hydrocarbons. Specifically, 20 wt% titania and 20 wt% zirconia increased the rates of bot...

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Bibliographic Details
Main Authors: Samanta, A, Landau, M. V, Vidruk-Nehemya, R, Herskowitz, M
Format: Article
Language:English
Online Access:Get full text
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Summary:Metal oxides grafted on K/Fe-Al-O spinel precursors prepared by co-precipitation in the presence of the surfactant CTAB displayed significant effects on the performance of the catalysts in CO 2 hydrogenation to hydrocarbons. Specifically, 20 wt% titania and 20 wt% zirconia increased the rates of both the reverse water gas shift reaction (RWGS) and the Fischer-Tropsch synthesis (FTS), as reflected in the increase of the CO 2 conversion and the decrease of CO selectivity. While 20 wt% titania increased methane and C 2 -C 4 selectivity and decreased C 5+ selectivity, 20 wt% zirconia displayed no effect on methane and increased C 2 -C 4 and C 5+ selectivity. 5 wt% hafnia and 5 wt% manganese oxide had little effect on performance and 5 wt% ceria enhanced the selectivity to both methane and light C 2 -C 4 and significantly decreased the selectivity to C 5+ . Silica inserted by grafting at the Fe-Al-O surface at 5 wt% acted as a promoter of CO 2 conversion but at high loading of 15 wt% was a strong inhibitor to FTS, increased methane and CO selectivity and decreased CO 2 conversion. Nanoparticles of both spinel and Fe-carbide phases in contact with zirconia caused a decline in the electron density of surface iron atoms, as reflected by the increase of the binding energy of Fe (2p) electrons by 0.7-0.8 eV as detected by XPS. This may be a result of a strong interaction of iron oxide and zirconia due to incorporation of Zr in the Fe-Al-O spinel structure and a strong interaction of near metallic iron in carbide nanocrystals in contact with ZrO 2 nanoparticles that plays a role of an electron acceptor as a Lewis acid and explains the increase of CO 2 conversion. The extremely low activity of the silica modified catalyst in FTS and enhanced activity in methanation are consistent with the model of selective blocking of the surface iron ions of the Fe-carbide component with grafted silica moieties and their interaction with the potassium promoter. Si and Zr species grafted on Fe-Al-O catalysts act as an inhibitor and promoter, respectively, in CO 2 hydrogenation.
ISSN:2044-4753
2044-4761
DOI:10.1039/c7cy01118k