L. Cot scite author profile

Hexagonal mesoporous silica layers were prepared by the sol±gel route using silicon alkoxides as silica precursors and alkyltrimethylammonium bromides to form the templating liquid crystal mesophase. The synthesis conditions required to obtain well-ordered crack-free layers were investigated. Thin layers exhibiting these properties were deposited from diluted sols. X-Ray diffraction enabled characterisation of the thermal evolution of their ordered structure and crystalline texture. Their porosity was experimentally measured from nitrogen adsorption±desorption analyses carried out directly on the thin layers. Two main synthesis parameters were identi®ed. The ®rst is the ageing time of the sol before deposition: 29 Si NMR showed that the disappearance of the ordered structure in the layers is related to the appearance of the Q 3 species in the sol. The second important synthesis parameter is the surfactant volume fraction in the medium after the removal of the volatile components. Using hexadecyltrimethylammonium bromide, well-ordered hexagonal layers were obtained for surfactant volume fractions ranging from 0.5 to 0.65, as expected from the corresponding water± surfactant binary diagram. For surfactants with shorter alkyl chains, the domain of existence of the hexagonal layers shifts to higher surfactant volume fractions in agreement with the evolution previously observed on the water±surfactant binary diagrams.

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Inorganic membranes and solid state sciences

Cot¹,

Ayral²,

Durand³

et al. 2000

Solid State Sciences

159

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Synthesis and characterization of inorganic gels in a lyotropic liquid crystal medium. Part 2.—Synthesis of silica gels in lyotropic crystal phases obtained from cationic surfactants

Dabadie¹,

Ayral²,

Guizard³

et al. 1996

J. Mater. Chem.

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Microporous silica materials with tailored porosity are synthesized by the sol-gel process using lyotropic liquid-crystal phases as templates. The starting isotropic sol is obtained by mixing tetramethoxysilane, water and an alkyltrimethylammonium bromide. The polymerization of the silica network and the formation of the amphiphilic mesophase are simultaneous and cooperative. After thermal elimination of the surfactant molecules, an ordered porous texture is maintained in the silica material. The pore size is related to the size of the templating unit and modulated by the length of the alkyl chain of the used surfactant. In this paper, the various steps of the synthesis are studied and the porous texture of the final material is characterized and discussed in terms of templating effects.

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L. Cot

Fundamentals of inorganic membrane science and technology

Synthesis conditions for hexagonal mesoporous silica layers

Inorganic membranes and solid state sciences

Synthesis and characterization of inorganic gels in a lyotropic liquid crystal medium. Part 2.—Synthesis of silica gels in lyotropic crystal phases obtained from cationic surfactants

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