Synthesis, characterization and application of MTS-9 with different content of titanium

The paper aims at synthesizing MTS-9 with the high titanium content and studying the effect of titanium content on the oxidation of propene and styrene. The spectra of samples are shown in figure. Samples have obvious adsorption band at 210nm, which is similar to that of TS-1. An absorption band in...

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Bibliographic Details
Published inMicroporous and mesoporous materials Vol. 171; pp. 179 - 184
Main Authors Hua, Derun, Zhou, Zheng, Wu, Yulong, Chen, Yu, Ji, Liu, Xie, Quanhua, Yang, Mingde
Format Journal Article
LanguageEnglish
Published San Diego, CA Elsevier Inc 01.05.2013
Elsevier
Subjects
Chemistry
Colloidal state and disperse state
Exact sciences and technology
General and physical chemistry
MTS-9
Oxidation
Porous materials
TS-1
TS-1
MTS-9
Oxidation
Characterization
Synthesis
Titanium
Transition metal
Porous material
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Summary:The paper aims at synthesizing MTS-9 with the high titanium content and studying the effect of titanium content on the oxidation of propene and styrene. The spectra of samples are shown in figure. Samples have obvious adsorption band at 210nm, which is similar to that of TS-1. An absorption band in the wavelength region of 200–260nm is attributed to the ligand-to-metal charge transfer (LMCT) band of the highly dispersed tetrahedrally coordinated titanium. As the ratio of Si to Ti is below 37, width of peak increases, which indicates that octahedral coordinate titanium is present. And sample (Si/Ti=26) displays an absorption band centered at 320nm, suggesting the presence of another kind of titanium oxide species, i.e., an aggregated bulk titanium oxide species . [Display omitted] ► The oxidation of propene and styrene is investigated on TS-1 and MTS-9 with different ratios of silica to titanium. ► For small-molecule reactant, TS-1 and MTS-9 with the same titanium content possess the similar activity. ► However, MTS-9 holds the higher activity than TS-1 for bulk reactant. Heteroatom of Ti is effectively incorporated into the framework of ordered mesoporous silica materials in strong acidic media by a two-step procedure. The synthesized samples (designated as MTS-9) are characterized by many methods. Results indicate that MTS-9 synthesized maintains mesoporous structure, and MTS-9 (Si/Ti=53) possesses the more tetrahedrally coordinated titanium species. The catalysts are applied for oxidation of propene and styrene in methanol with hydrogen peroxide as the oxidant. As the ratio of Si to Ti is below 53, the increase of titanium content benefits to the formation of benzaldehyde.
ISSN:1387-1811
1873-3093
DOI:10.1016/j.micromeso.2012.11.035