Issue 5, 1991

Hydrogenolysis of alkanes. Part 6.—Modification of supported ruthenium catalysts by vanadium pentaoxide

Abstract

To prepare series of supported Ru–V catalysts, V2O5 was first applied to the supports (SiO2, γ-Al2O3 and TiO2) by impregnation and calcination; this was followed by a second impregnation with aqueous RuCl3 solution. Temperature-programmed reduction showed that the V2O5 is reduced to at least the V3+ state immediately after reduction of RuCl3 to Ru° at 380–450 K. After a first high-temperature (758 K) reduction (HTR1), rates of n-butane hydrogenolysis decreases as the V2O5 content increases, the least active catalyst showing a rate ca. 105 times smaller than that of the corresponding V2O5-free catalyst. Oxidation and low-temperature (433 K) reduction (LTR) largely restore the activities, which are again suppressed by a second reduction at 758 K (HTR2). These effects are ascribed to a ‘strong metal–support interaction’ involving V3+ species.

Very significant changes in product selectivities accompany the changes in activity; V3+-modified catalysts show high ethane selectivities (S2≈ 1.0–1.45), but especially after HTR1 they do not alter progressively as the V2O5 content is raised. It appears that Ru particles are either entirely deactivated or exist in a partially modified condition (state A). A second condition (state B) is recognised after LTR with Ru–V/SiO2 and Ru–V/TiO2, but this may not be caused by V3+. HTR2 of Ru–V/SiO2 and Ru–V/Al2O3 produces catalysts of very low activity. It is thought that V3+ species decorate the surface of the Ru particles, simultaneously decreasing both the number of active centres and their average size; the latter effect encourages the chemisorption of n-butane in a manner favourable to central C—C bond breaking.

Article information

Article type
Paper

J. Chem. Soc., Faraday Trans., 1991,87, 767-774

Hydrogenolysis of alkanes. Part 6.—Modification of supported ruthenium catalysts by vanadium pentaoxide

G. C. Bond and S. Flamerz, J. Chem. Soc., Faraday Trans., 1991, 87, 767 DOI: 10.1039/FT9918700767

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