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Silica optical properties

C. E. Poole and M. T. Belay, The influence of layer thickness on the cliromatographic and optical properties of high performance silica gel tliin layer cliromatographic plates , J. Planar Chromatogr. 4 345-359 (1991). [Pg.196]

Dhas NA, Zaban A, Gedanken A (1999) Surface synthesis of zinc sulfide nanoparticles on silica microspheres sonochemical preparation, characterization, and optical properties. Chem Mater 11(3) 806-813... [Pg.211]

Antiblock additives are often incorporated into packaging films to prevent them sticking together. Their effectiveness relates directly to the roughness they impart on a film surface while minimising loss in optical properties. They are often used in association with slip additives such as erucamide. Common antiblock additives include crystalline silica, diatomaceous earth and talc (magnesium silicate). [Pg.573]

Changes of fibre optical properties and thus changes of the analyte can be detected in the ultraviolet (UV), visible (VIS), near infrared (NIR) and middle/far infrared (IR) regions. There are only a few materials sufficiently transparent in the UV region, and among them, the pure silica is uniquely suitable for fibre drawing. From Figure 5 it can be seen that the UV... [Pg.63]

Gel-derived glasses, 23 73-74 Gel-derived silica optical components, physical properties of, 23 75-76 Gel dyeing, 9 194 Gel effect, 16 281-282... [Pg.395]

The size of silica nanoparticles affects their physical, chemical, electronic, and optical properties. Proper size of silica nanoparticles is crucial for design of silica-based nanomaterials. In Stober methods, the size of silica nanoparticles is adjusted by changing the type of organic solvent, the amount of silicon alkoxide, and the... [Pg.233]

The optical properties of a DDSN are mainly determined by the properties of dye molecules. Since silica nanomaterials are effectively transparent they are unlikely to absorb light in the near-infrared, visible or ultraviolet regions, which allows the dye molecules inside the silica matrix to keep their original optical properties [64]. Meanwhile, the presence of the silica matrix provides a new environment for dye molecules and affects dye fluorescence properties. [Pg.239]

Silica has been used both as a core and shell material. For example, monodis-persed silica spheres were coated with titania by decomposing titanyl sulfate, TiOS04, in acidic solutions at 90°C (146). The particles so produced showed good hiding power, to be useful as paper whiteners (147). Due to the uniformity of the cores and shells, the optical properties of such dispersions were predictable and reproducible, as shown in Figure 1.1.22, which compares the scattering coefficient,... [Pg.30]

Optical Properties. The optical transmission of vitreous silica is influenced by impurities and the forming process. Ultrapure vitreous silica has the ability to transmit from the deep ultraviolet, through the visible, and into the near-infrared spectral range. [Pg.507]

Since the first synthesis of mesoporous materials MCM-41 at Mobile Coporation,1 most work carried out in this area has focused on the preparation, characterization and applications of silica-based compounds. Recently, the synthesis of metal oxide-based mesostructured materials has attracted research attention due to their catalytic, electric, magnetic and optical properties.2 5 Although metal sulfides have found widespread applications as semiconductors, electro-optical materials and catalysts, to just name a few, only a few attempts have been reported on the synthesis of metal sulfide-based mesostructured materials. Thus far, mesostructured tin sulfides have proven to be most synthetically accessible in aqueous solution at ambient temperatures.6-7 Physical property studies showed that such materials may have potential to be used as semiconducting liquid crystals in electro-optical displays and chemical sensing applications. In addition, mesostructured thiogermanates8-10 and zinc sulfide with textured mesoporosity after surfactant removal11 have been prepared under hydrothermal conditions. [Pg.383]

What is the role of point defects in optical properties of silica and germania nanomaterials ... [Pg.115]

Discuss common features and differences in optical properties of analogous point defects in silica and germania nanomaterials. [Pg.116]

Fig. 7.15. Optical absorption spectra (a) of the surface and the bulk silyl radicals in silica (data for bulk centers adapted from Ref. [46]) and correlation diagram (b) between EPR and optical properties for silyl-type radicals in silica. Fig. 7.15. Optical absorption spectra (a) of the surface and the bulk silyl radicals in silica (data for bulk centers adapted from Ref. [46]) and correlation diagram (b) between EPR and optical properties for silyl-type radicals in silica.
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See also in sourсe #XX -- [ Pg.746 ]

See also in sourсe #XX -- [ Pg.396 ]



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