Effect of the grafting agent on the structure and catalytic performance of Ti-MCM-22†
Abstract
Ti(IV)-incorporated MCM-22 (Ti-MCM-22) was prepared by a simple grafting method using different titanium alkoxides, including Ti(OEt)4, Ti(OiPr)4 and Ti(OBu)4 onto acid-treated calcined MCM-22. The X-ray diffraction patterns and N2 sorption isotherms confirmed the retention of the basal MWW layer structure in Ti-MCM-22. The Si/Ti molar ratios analyzed by ICP-MS increased with the size of titanium alkoxides and varied in the order of Ti(OEt)4 < Ti(OiPr)4 < Ti(OBu)4 based on the same amounts of titanium alkoxides used in the grafting solutions. The UV-vis and X-ray absorption spectra revealed that both tetrahedrally and octahedrally coordinated Ti(IV) species were present on Ti-MCM-22 prepared by grafting. However, the amount of octahedral Ti(IV) decreased with the decrease in Ti content. The solid-state 29Si NMR spectra indicated that most Ti(IV) species were incorporated near the T-sites on the open bottom of the supercage, which were easily accessed by the grafting agent. When applied in epoxidation of cycloalkenes, Ti-MCM-22 prepared by grafting with Ti(OEt)4 demonstrated better catalytic activity than Ti-YNU-1 or those grafted with Ti(OiPr)4 and Ti(OBu)4. The best catalytic performances were obtained over Ti-MCM-22 with a Si/Ti molar ratio of ca. 100 prepared by grafting with Ti(OEt)4. The conversions were very high and epoxide selectivities were close to 100% in cyclohexene and cyclooctene oxidation using t-butylhydrogen peroxide as the oxidant.