Iron Incorporated Mesoporous Molecular Sieves Synthesized by a Microwave-Hydrothermal Process and Their Application in Catalytic Oxidation

Fe-FSM-16 and Fe-containing mesoporous materials (Fe-JLU-15) prepared by using semifluorinated surfactant as a template, have been synthesized by microwave-hydrothermal (M-H) process and characterized by several spectroscopic techniques. The catalytic activity of these materials was tested for the phenol hydroxylation and wet phenol oxidation with H₂O₂ under mild reaction conditions. The effect of pH, H₂O₂/PhOH molar ratio and stability of the catalyst on the oxidation process was also investigated. Phenol oxidation and H₂O₂ decomposition show that the Fe-JLU-15 is more active than Fe-FSM-16 and more stable in aqueous solution. The total amount of dissolved iron is less than 5 wt% of the iron initially contained in the catalyst. In phenol hydroxylation, these two solids can effectively catalyze the phenol hydroxylation. Catechol and hydroquinone were observed as the major products, with a difference in the product distribution for these solids. The Fe-JLU-15 has a high selectivity for catechol (63.5 % phenol conversion, CAT/HQ = 2.7) while the Fe-FSM-16 shows a high selectivity for hydroquinone (56.8 % phenol conversion, CAT/HQ < 1) under the same reaction conditions.