Abstract
Zirconium doped SiC with a surface area from 88 to 200 m 2 g −1 was synthesized using the shape memory concept method followed by calcination in air at a temperature of ≤480°C. The material obtained was composed of β-SiC and small ZrO 2 particles dispersed throughout the material matrix and a significant amount of an amorphous phase containing Si, Zr and O. Molybdenum oxycarbide, the active isomerization phase, supported on such a material displayed a similar behavior to that obtained on pure SiC for the n-heptane isomerization reaction. A comparison made with the molybdenum oxycarbide catalyst supported on pure ZrO 2 showed that the Zr doped SiC was not simply made of silicon carbide coated with a layer of ZrO 2 on the surface but probably an amorphous phase containing Si, Zr and O which displays a similar behavior as pure SiC.
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