Silica-based nanospheres, nanowires, nanosubstrates, nanotubes, and nanofiber arrays

Silica-based nanospheres, nanosphere wire-like agglomerates, nanotubes, and nanofiber arrays, bi- and coaxial SiC/SiO^sub 2^ nanowires, and silica nanosubstrates have been generated and their structural, mechanical, and catalytic properties examined. Nearly monodisperse SiO^sub 2^ nanospheres of dia...

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Published inColloid and polymer science Vol. 281; no. 7; pp. 673 - 685
Main Authors GOLE, James L, WANG, Z. L, DAI, Z. R, STOUT, J, WHITE, Mark
Format Journal Article
LanguageEnglish
Published Berlin Springer 01.07.2003
Springer Nature B.V
Subjects
Chemistry
Colloidal state and disperse state
Exact sciences and technology
General and physical chemistry
General, apparatus, technics of preparation
Nanowires
Heterogeneous catalysis
Silicon Carbides
Nanoparticle
Preparation
Nanotube
Spherical particle
Silica
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Summary:Silica-based nanospheres, nanosphere wire-like agglomerates, nanotubes, and nanofiber arrays, bi- and coaxial SiC/SiO^sub 2^ nanowires, and silica nanosubstrates have been generated and their structural, mechanical, and catalytic properties examined. Nearly monodisperse SiO^sub 2^ nanospheres of diameter ≤30 nm have been synthesized in gram quantities and used to sequester active copper sites for the selective catalytic conversion of ethanol to acetaldehyde in a process that is at least three times more efficient than that which uses fumed silica produced from the flame hydrolysis of silicon tetrachloride. A Ni(III) solution has been reduced in an electroless process on the surface of the nanospheres, producing a ferromagnetic crystalline nickel coating of variable thickness. Partially agglomerated SiO^sub 2^ nanospheres of diameter 45 nm have been used as nanosubstrates for SnO^sub x^ crystallites of diameter 3-6 nm. The agglomeration of smaller nanospheres (d≤10 nm) to wire-like configurations has suggested the means to grow silica nanotubes and to produce unique silica nanofiber arrays. Generated silica nanotubes may fill an existing need for the catalytic conversion of high molecular weight hydrocarbons (MW1000). Both coaxial and side-by-side biaxially structured silicon carbide-silica nanowires have now also been generated from C/Si/SiO^sub 2^ mixtures. The structure of these nanowires, their cross-sectional shape, and their structural transformation between a biaxial and coaxial configuration have been studied. The Young's modulus of the biaxially structured nanowires has been measured to be 50-100 GPa, depending on the size of the nanowires.[PUBLICATION ABSTRACT]
ISSN:0303-402X
1435-1536
DOI:10.1007/s00396-002-0819-4