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C-7: Of the Chemical State of Iron-based Catalysts Under CO2 Hydrogenation Conditions and Other Demons

Mauricio Lopez Luna

Fritz Haber Institut der Max Planck Gesellschaft


ABSTRACT

Iron-based catalysts are considered active for the hydrogenation of CO2 towards  high-order hydrocarbons. Here, we address the structural and chemical evolution of oxide supported iron nanoparticles (NPs) during the activation stages and during the CO2 hydrogenation reaction. Fe NPs were deposited onto planar SiO2 and Al2O3 substrates by dip  coating with a colloidal NP precursor and by physical vapor deposition of Fe. These model  catalysts were studied in situ by near ambient pressure X-ray photoelectron spectroscopy  (NAP-XPS) in pure O2, then in H2, and finally in the CO2 + H2 (1:3) reaction mixture in the mbar  pressure range and at elevated temperatures. The NAP-XPS results revealed the preferential  formation of Fe(III) and Fe(II)-containing surface oxides under reaction conditions,  independently of the initial degree of iron reduction prior to the reaction, suggesting that CO2 behaves as an oxidizing agent even in excess of hydrogen. The formation of the iron carbide  phase, often reported for unsupported Fe catalysts in this reaction, was never observed in  our systems, even on the samples exposed to industrially relevant pressure and temperature (e.g., 10 bar of CO2 + H2, 300°C). Moreover, the same behavior is observed for Fe NPs  deposited on nanocrystalline silica and alumina powder supports, which were monitored in  situ by X-ray absorption spectroscopy (XAS). Our findings are assigned to the nanometer size  of the Fe particles, which undergo strong interaction with the oxide support. The combined  XPS and XAS results suggest that a core (metal-rich) – shell (oxide-rich) structure is formed  within the Fe NPs during the CO2 hydrogenation reaction. The results highlight the important  role played by the oxide support in the final structure and composition of nano-sized catalysts. 


Poster Session Link:

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If you have any questions for the presenter, please contact them by either one of the following ways:

Mauricio Lopez Luna Community Page Link

Email: luna@fhi-berlin.mpg.de