Molecular structure and reactivity of titania-supported transition metal oxide catalysts synthesized by equilibrium deposition filtration for the oxidative dehydrogenation of ethane

The molecular structure and catalytic performance of (MoOx)(n)/TiO2, (WOx)(n)/TiO2 and (VOx)(n)/TiO2 catalysts (synthesized by the equilibrium-deposition-filtration/EDF method) for oxidative dehydrogenation (ODH) of ethane were studied by in situ Raman spectroscopy at 430 degrees C and catalytic measurements in the temperature range of 420-480 degrees C. The extent of association within the deposited oxometallic phase followed the sequence (VOx)(n)/TiO2 (MoOx)(n)/TiO2 > (WOx)(n)/TiO2: a concurrent trend in reduction susceptibility was evidenced by exploiting the relative normalized Raman band intensities while monitoring the response of the vibrational properties of the catalytic samples under reactive (C2H6/O-2/He) and reducing (C2H6/He) conditions by in situ Raman spectroscopy. The catalyst reactivity tracks the corresponding trend in reduction susceptibility as evidenced by the in situ Raman spectra. Selective reaction pathways are favored at high coverage whilst combustion routes are activated at low coverages due to the involvement of carrier lattice oxygen sites. The observed apparent reaction rates and activation energies are discussed in relation to various structural and reactivity aspects. (C) 2016 Academie des sciences. Published by Elsevier Masson SAS. All rights reserved.