Abstract
Abstract Mesoporous SBA-15 and 1–12 wt% CrO x /SBA-15 have been prepared by triblock copolymer P123-templated hydrothermal synthesis and incipient wetness impregnation method, respectively. The materials were characterized by means of a number of analytical techniques and their catalytic activities were evaluated for the oxidative dehydrogenation (ODH) of isobutane. It is found that with rise of chromia loading, the morphology of SBA-15 changed from long interconnected chains to short banana-like rods, and finally changed to spheres with wormholes. The results of Raman and X-ray photoelectron spectroscopic investigations reveal that the surface Cr species are mainly Cr 6+ in mono- and polychromate, with a minor amount of Cr 3+ due to α-Cr 2 O 3 formation. The H 2 temperature-programmed reduction study demonstrates that the catalysts at chromia loading of 6–10 wt% are more reducible. The 10 wt% CrO x /SBA-15 catalyst exhibits the best activity, showing 79% C 4 -olefin selectivity and 11% C 4 -olefin yield at 540 °C. One monolayer CrO x coverage on SBA-15 occurs at Cr surface density = 1.05–1.43 Cr-atom/nm 2 . We conclude that factors such as (i) presence of active Cr 6+ in mono- and polychromate, (ii) strong redox ability of Cr species, and (iii) good dispersion of CrO x on banana-like rods of well-ordered mesoporous SBA-15 are responsible for the good performance of the SBA-15-supported chromia in isobutane ODH.
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