Structure and Reactivity of Bimetallic FeIr/SiO2 Catalysts after Reduction and During High-Pressure CO Hydrogenation.
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Publication date
1997
Authors
Koningsberger, D.C.
Gruijthuijsen, L.M.P. van
Howsmon, G.J.
Delgass, W.N.
Santen, R.A. van
Niemantsverdriet, J.W.
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Abstract
Bimetallic FeIr/SiO{2}CO hydrogenation catalysts have been studied by temperature-programmed reduction, EXAFS, Mossbauer spectroscopy, and previously also by infrared spectroscopy of adsorbed CO. We concentrate on the structure of a freshly reduced sample, which is selective for the formation of hydrocarbons from CO+3H{2}, and a catalyst activated during 48 h of reaction, which produces mainly methanol. The fresh sample contains iron oxide and bimetallic FeIr particles with an iron-rich surface after reduction in H{2}at 450}o{C. During CO hydrogenation, a part of the oxidic iron reduces and forms, together with some of the iron that is initially alloyed an iron carbide. CO adsorption on activated FeIr/SiO{2}is considerably weaker than on the freshly reduced catalyst, while the activated catalyst also possesses a much higher hydrogenation activity than the initially reduced system does. Structure models for the catalyst after reduction and during steady state CO hydrogenation at high pressure are discussed.