Abstract
The Fe-incorporated mesoporous SBA-15 materials with the Fe content up to a Fe/Si molar ratio=0.05 were synthesised via pre-hydrolysis of tetraethyl orthosilicate (TEOS) employing P123 triblock copolymer as the template. The synthetic strategy is the hydrolysis of Fe salt precursor can provide acidic medium essential for the pre-hydrolysis of TEOS. Different Fe/Si ratios and TEOS pre-hydrolysis periods were employed to modify the structure and texture of the Fe-incorporated SBA-15. The impact of Fe sources (ferric nitrate, ferric chloride, and ferric sulfate) on the characteristics of Fe-SBA-15 has also been investigated. Ferric nitrate showed the best effect among the three Fe sources. UV–Vis study reveals that besides the four-coordinated iron species, the iron oxide domains may also exist in the samples. Pyridine adsorption IR study demonstrates enhancement in Brønsted and Lewis acidity of as-synthesised Fe-SBA-15 materials, potential as solid acid catalyst or catalyst support. Moreover, the employed treatments (700°C for 10h in air and 600°C for 3h in 100% steam) verified good thermal and hydrothermal stability of the derived Fe-SBA-15. For comparison, Al- and Cr-incorporated SBA-15, with the Al/Si and Cr/Si molar ratio of 0.08 and 0.05 respectively, were also synthesised through the same strategy.
Published Version
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