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19: Iron oxide model catalysts: adsorption & catalysis
Abstract:
The adsorption of ethylbenzene and styrene on well ordered epitaxial iron oxide model catalyst films
with different stoichiometries was investigated using near edge X-ray absorption fine structure
spectroscopy (NEXAFS). On the iron-terminated Fe3O4(111) and a?Fe2O3(0001) surfaces a
chemisorption of ethylbenzene and styrene is observed which initially occurs on the iron sites via the
p-electron system of the phenyl ring. This forces the molecules into an almost flat lying configuration
(h6 like ring adsorption geometry). In the case of ethylbenzene this adsorption complex is supposed to
lead to an activation of the C-H bonds thus facilitating the dehydrogenation to styrene. The tilt angle of
the aromatic ring systems increase to about 40° when approaching monolayer saturation. In contrast,
the interaction with the oxygen-terminated FeO(111) surface is weak and of the physisorption type. The
adsorbate-adsorbate interaction dominates and causes a tilted adsorption of the molecules from the
beginning.