Abstract
MoVTeNbO catalysts, prepared by hydrothermal synthesis, are active and highly selective in the ODH of ethane, especially those with a MoVTeNb molar ratio of 1–0.15–0.16–0.17 and heat-treated at 600–650 °C. On the best catalyst, selectivities higher than 80% at ethane conversion levels higher than 80% have been obtained operating at relatively low reaction temperatures (340–400 °C). Thus, yields of ethylene of ca. 75% have been obtained, which exceeds the best yield reported in the literature. Te 2 M 20O 57 ( M=Mo, V, Nb) and (V,Nb)-substituted θ-Mo 5O 14, in addition to small amounts of the Te 0.33 MO 3.33 ( M=Mo, V, Nb) phase, can be proposed in the most selective catalysts from XRD, SAED, and HREM results. However, the catalytic performance in ethane oxidation can mainly be related to the presence of the multifunctional Te 2 M 20O 57 orthorhombic phase in cooperation with the Mo 5O 14-type phase. The nature of active and selective sites is discussed.
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