O.I. Lebedev scite author profile

Silica molecular sieves with controlled porosity crystallize from hydrogel in the presence of organic template molecules.[1] Patterned, mesoporous silica materials with amorphous walls are obtained using structure directing surfactants [2] or block polymers. [3] In diatoms and sponges the formation of macroporous silica structures is directed by biopolymers and proteins. [4] We report the discovery of crystalline silica materials with two levels of porosity and structural order. At the first level, building units are nanoslabs of uniform size with the Silicalite-1 zeolite framework generated by the tetrapropylammonium template. [5] At the second structural level, the nanoslabs are linked through their corners, edges, or faces following patterns imposed by interaction with surfactant or triblock copolymer molecules. After evacuation of the organic molecules, microporosity is obtained inside the nanoslabs, and a precise mesoporosity between the nanoslabs depending on the tiling pattern of the nanoslabs. Three different tiling patterns are directly imaged by electron microscopy. X-ray diffraction (XRD) and N 2 adsorption confirm the mosaic structures derived from electron microscopy. The generation of zeolite properties such as acidity and hydrothermal stability in mesostructured materials is a lively research field. The possibility to transform part of the amorphous walls of a mesoporous precursor into a zeolite framework has been demonstrated, [6] but segregation of a zeolite phase from the mesostructure as conversion proceeds seems difficult to avoid. [7,8] A more direct way to embed zeolite fragments in walls separating mesopores is by assembling the mesophase from suspensions containing zeolite crystallization nuclei.[9±12] The obtained materials typically have hexagonal symmetry and contain undefined zeolite fragments. We used as a silicon source the recently discovered uniform, nanometer-size zeolite slabs [5] and succeeded in linking them in various ways into materials with well-defined mesoporosity.Nanoslabs with the Silicalite-1 structure type [13] are prepared through hydrolysis of tetraethylorthosilicate (TEOS) in concentrated solution of tetrapropylammonium hydroxide (TPAOH).[5] Silicalite-1 nanoslab formation is directed by TPA cations. The nanoslab size, which can be monitored with low-angle X-ray scattering, dynamic light scattering, and electron microscopy, is controlled by the synthesis conditions.[5]Zeotile-1 preparation departs from a basic suspension of nanoslabs with dimensions of 1.3 nm 2.0 nm 4.0 nm. Aggregation of these nanoslabs into an open structure is achieved by addition of an aqueous solution of cetyltrimethylammonium bromide (CTMABr). In Zeotile-2 preparation, CTMABr is added in powder form. The organics are removed from the products obtained through leaching with ethanolic acetic acid solution followed by calcination. XRD and high-resolution electron microscopy (HREM) are used to characterize the obtained superstructures. In HREM, a low-intensity electron beam and medium magnificatio...

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Synthesis and structure investigations of alloys with fullerene and nanotube inclusions

Чернозатонский

Val'chuk

Киселев

et al. 1997

Carbon

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Microstructure and properties of artificial grain boundaries in epitaxial YBA2Cu3O7−δ thin films grown on [001] tilt YZrO2 bicrystals

Alarco

Olsson

Ivanov

et al. 1995

Physica C: Superconductivity

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Correlation of Microstructure and Magnetotransport Properties of Epitaxially Grown La-Ca-Mn-O3 Thin Films

Habermeier¹,

Razavi²,

Lebedev³

et al. 1999

phys. stat. sol. (b)

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O.I. Lebedev

Tiling Silicalite‐1 Nanoslabs into 3D Mosaics

Synthesis and structure investigations of alloys with fullerene and nanotube inclusions

Microstructure and properties of artificial grain boundaries in epitaxial YBA2Cu3O7−δ thin films grown on [001] tilt YZrO2 bicrystals

Correlation of Microstructure and Magnetotransport Properties of Epitaxially Grown La-Ca-Mn-O3 Thin Films

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