Postalkoxysilylation with diethoxydimethylsilane has been carried out on the zeolitic lamellar precursors of various topologies such as MWW, FER, CDO and MCM-47 aiming to construct new crystalline structures with expanded pore apertures between the layers. The silylation process and the crystalline and pore structures of the resulting materials have been investigated with the techniques of XRD, IR, (13)C and (29)Si MAS NMR, ICP, SEM, HRTEM, elemental analyses, and N 2 adsorption. In contrast to forming known three-dimensional zeolite structures after direct calcination of the lamellar precursors, the silylation led to new crystalline structures with opener pores, as evidenced by the shift of layer-related diffractions to the lower-angle region in XRD patterns and the enlarged interlayer pores found by HRTEM images. After optimizing the treatment conditions, particularly the amount of silane agent, a maximum and homogeneous silylation was realized, which guaranteed the phase purity in interlayer expanded zeolites. The expanded structures were well preserved after calcination at 823 K or reflux in water for 1 to 2 weeks, indicating a high thermal stability and also a hydrothermal stability. The interlayer expanded zeolites prepared from the metallosilicate precursors of MWW topology exhibited higher catalytic activities in the redox and solid acid-catalyzed reactions of bulky molecules than that of their counterparts with conventional MWW topology.
A new titanosilicate, named Del-Ti-MWW, has been prepared by delaminating the lamellar precursor of
Ti-MWW, which is postsynthesized from highly deboronated MWW zeolite with the assistance of cyclic
amine. The amount of organic base used for supporting surfactant in swelling the layered structure should be
controlled carefully to delaminate efficiently without the collapse of the structure. Ultrasound treatment is
demonstrated to delaminate the swollen material more completely. Del-Ti-MWW materials have a large surface
area, which mitigates effectively the steric restrictions imposed by conventional microporous titanosilicates
to bulky molecules. Del-Ti-MWW, maintaining the fundamental structure of MWW zeolite and tetrahedral
Ti species in the framework position, proves to be superior to TS-1, Ti-Beta, three-dimensional Ti-MWW
and even mesoporous Ti-MCM-41 in the epoxidation of a wide range of bulky alkenes with hydrogen peroxide.
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