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Disordered mesoporous silicates formed by templation of a liquid crystal (L3)

Published online by Cambridge University Press:  18 March 2011

Abds-Sami Malik
Affiliation:
Princeton University, Dept. of Chemical Engineering and Princeton Materials Institute, Princeton, NJ 08540
Daniel M. Dabbs
Affiliation:
Princeton University, Dept. of Chemical Engineering and Princeton Materials Institute, Princeton, NJ 08540
Ilhan A. Aksay
Affiliation:
Princeton University, Dept. of Chemical Engineering and Princeton Materials Institute, Princeton, NJ 08540
Howard E. Katz
Affiliation:
Bell Laboratories, Lucent Technologies, Murray Hill, NJ 07974
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Abstract

For a wide range of technological applications the need for optically transparent, monolithic, mesoporous silicates is readily apparent. Potential areas of utility include filtration, catalysis, and optoelectronics among many others. This laboratory has previously reported on the synthesis of such materials thatare formed through the addition of tetramethoxysilane to a liquid crystal solution of hexanol, cetylpyridinium chloride, and 0.2 M hydrochloric acid, and our investigation into the properties of these materials is a continuing process. We have achieved defect and fracture free material of suitable size (0.5 cm × 3 cm diameter disks) via supercritical drying of the silicate under ethanol or CO2. The dried materials are remarkably similar to ordinary glass in strength, texture, and clarity. They possess pore volumes of ca. 1.0 cm3/g, with BET surface areas >1000 m2/g. We can re-infiltrate thedried monolith with hydroxyethylacrylate, a photo-polymerizable monomer, to create an inorganic/organic nanocomposite. There is fracturing upon re-infiltration, but preliminary tests show that the polymerization proceeds despite the mechanical failure. These findings suggest many possible applications for these unique nanocomposites.

Type
Research Article
Copyright
Copyright © Materials Research Society 2001

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References

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