Titlebook: Gas Phase Nanoparticle Synthesis; Claes Granqvist,Laszlo Kish,William Marlow Book 2004 Springer Science+Business Media Dordrecht 2004 Clus

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Book 2004 condensed matter physics and chemistry, and aerosol science. Gas-phase nanoparticle synthesis is instrumental to nanotechnology—a field in current focus that raises hopes for environmentally benign, resource-lean manufacturing. Nanoparticles can be produced by many physical, chemical, and even biol

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Existenz- und Eindeutigkeitsfragenthey and their structures have on materials or larger structures where they are deposited or embedded. For implementing a process-level description of the formation of these structures, a quantitative treatment of the physical factors involved in their assembly from isolated nanoparticulate elements

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https://doi.org/10.1007/978-3-322-91175-9high compared to the temperature of the gas. The use of this thermophoresis effect is advantageous for the transport of nanoparticles in the tube in two ways: (i) it avoids particle adsorption on the wall surface, and (ii) it makes it possible to use a small cross sectional diameter for the flux of

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Eigenschaften differenzierbarer Funktionen,f both macro and micro approaches. The macro approach includes consideration of heat and mass transfer during particle growth from the gas phase. The leading role of radiation in the total heat exchange between a growing particle and its environment is a critical factor of a particle’s temperature h

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Eigenwert-Theorie und quadratische Formen,en nanoparticle condensation from a WF./H./Ar gas mixture is considered as a model system to show the most relevant processes during the nanoparticle formation and the interaction of the nanoparticles with laser light. Parallel phenomena for carbon covered iron nanoparticle formation by ArF excimer