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Production of Dispersed Systems

The synthesis of nanoparticles is not a simple task however, numerous techniques have been developed for that purpose [14-16]. In all experimental studies, several [Pg.428]

3) determination of DS sizes and their size and space distributions, [Pg.428]

About 35 years ago, the production of noble-gas clusters and metallic clusters became available as a result of free beam sources [21, 22). Let us estimate the time scale of 1 run size nanocluster production by these techniques [23]. There, the typical metal vapor temperature, T, is about 1500 K and the pressure, p, is nearly equal to 500 Pa, and the estimated size of the clusters is L = 1 nm. Then, using the kinetic theory of gases, one obtains the incident atomic flux on the cluster, F, which is the number of metal atoms hitting the nanocluster surface per second  [Pg.428]

The production of disperse systems is often achieved by dispersion methods in which the disperse phase is subdivided into small particles by mechanical means. Liq-... [Pg.237]

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