The reaction of Fe(acac)3 with the surface of zirconia has been studied for the first time using in situ
infrared diffuse reflectance spectroscopy, photoacoustic spectroscopy, and Fourier transform Raman
spectroscopy. The unstable Fe(acac)3 reacts readily with the surface of zirconia at room temperature in
the liquid phase or at 110 °C in the gas phase, yielding grafted Fe−OH species and Zr−acac surface groups.
We present evidence that the reaction occurs both with coordinatively unsaturated Zr sites and with the
surface hydroxyls. The grafted Zr−acac groups are thermally unstable and form Zr−acetate groups after
thermal treatment at 110 °C in ambient air. After removal of the organic ligands, noncrystalline iron oxide
species are formed on the zirconia surface. The grafting of iron oxide on zirconia is a relevant procedure
to form either redox catalysts or solid-state fuel cells.
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