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Sol colloidal

Brownian movement The rapid and random movement of particles of a colloidal sol, observed brightly lit against a dark ground. First observed with a pollen suspension. The Brownian movement is due to the impact on the dispersed particles of the molecules of the dispersion medium. As the particles increase in size, the probability of unequal bombardment from different sides decreases, and eventually collisions from all sides cancel out and the Brownian movement becomes imperceptible at a particle size of about 3-4/z. From the characteristics of the movement, Perrin calculated Avogadro s number L. [Pg.69]

Collins F C and Kimball G E 1949 Diffusion-controlled rate processes J. Colloid Sol. 4 425... [Pg.865]

A gel is defined as a hydrous metal aluminosihcate prepared from either aqueous solutions, reactive soflds, colloidal sols, or reactive aluminosihcates such as the residue stmcture of metakaolin and glasses. [Pg.451]

Sol-Gel Techniques. Sol-gel powders (2,13,15,17) are produced as a suspension or sol of coUoidal particles or polymer molecules mixed with a Hquid that polymerizes to form a gel (see Colloids SoL-GELtechnology). Typically, formation of a sol is foUowed by hydrolysis, polymerization, nucleation, and growth. Drying, low temperature calciaation, and light milling are subsequently required to produce a powder. Sol-gel synthesis yields fine, reactive, pseudo-crystalline powders that can be siatered at temperatures hundreds of degrees below conventionally prepared, crystalline powders. [Pg.305]

The colloidal particles can be crystalline or constitnte an amorphons agglomeration of individual molecnles. The definition also includes nonaggregated large macromolecules such as proteins. An arbitrary distinction is made between hydrophobic colloids (sols) and hydrophilic colloids (gels), which depends on the degree and type of interaction with the aqneons solvent. [Pg.600]

M.D. Liu and I.W. Chen, Encapsulation of protein molecules in transparent porous silica matrices via an aqueous colloidal sol-gel process. Acta Mater. 47, 4535-4544 (1999). [Pg.547]

Polymer adsorption is important in the flocculation and stabilization of colloidal sols and has been reviewed by Vincent et al. (1) and Tadros (2). Polyvinyl alcohol (PVA) has been used in these studies because of its practical application in textiles, adhesives, and coatings. The adsorption of PVA has been studied on silver iodide by Fleer (3) and Koopal (4), and on polystyrene (PS) latex particles by Garvey (5). The adsorption isotherms reported by these workers extend up to 600 ppm PVA. The adsorption at... [Pg.77]

An interesting problem arises when we consider solutions or colloidal sols where the diffusing component is much larger in size than the solute molecules. In dilute systems Equation (1.14) would give an adequate value of the Peclet number but not so when the system becomes concentrated, i.e. the system itself becomes a condensed phase. The interactions between the diffusing component slow the motion and, as we shall see in detail in Chapter 3, increase the viscosity. The appropriate dimensionless group should use the system viscosity and not that of the medium and now becomes... [Pg.10]

Figure 2S, Scheme of sol-gel routes. Colloidal sol-gel route and polymeric gel route (Burggraaf, Keizer and van Hassel (1989a, b). [Pg.22]

Fluid colloidal system of two or more components. (Gold Book online, 1972 entry [2].) Note Examples of colloidal sols are protein sols, gold sols, emulsions and surfactant solutions above their critical micelle concentrations. [Pg.214]

Copper, silver, and gold colloids have been prepared by Chemical Liquid Deposition (CLD) with dimethoxymethane, 2-methoxyethyl ether, and ethylene glycol dimethyl ether. The metals are evaporated to yield atoms which are solvated at low temperatures and during the warm-up process colloidal sols with metal clusters are obtained. Evaporation of the solvent was carried out under vacuum-generating metal films. These films are showing very low carbon/hydrogen content and were characterized by elemental analyses and infrared spectroscopy (Cardenas et al., 1994). [Pg.177]

Use of a protective colloid in solution prevents the formation of the ordinary and expected precipitate in many eases, and causes the formation of the expected substance -as colloidal sol. Silver nitrate (0.6 gram per liter and potassium dichromate (0.5 gram per liter) to one of which is added 0.1 volume of Itol gelatin solution (2 grains per 100 milliliters of water) are mixed with stirring silver dichromate sol is formed. [Pg.419]

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See also in sourсe #XX -- [ Pg.2 , Pg.9 , Pg.11 ]

See also in sourсe #XX -- [ Pg.100 , Pg.311 ]



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Sol-gel colloids

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