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Scalable gas-phase processes to create nanostructured particles 被引量:1
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作者 J.Ruud van Ommen Caner U.Yurteri +1 位作者 Naoko Ellis Erik M.Kelder 《Particuology》 SCIE EI CAS CSCD 2010年第6期572-577,共6页
The properties of nanoparticles are often different from those of larger grains of the same solid material because of their very large specific surface area. This enables many novel applications, but properties such a... The properties of nanoparticles are often different from those of larger grains of the same solid material because of their very large specific surface area. This enables many novel applications, but properties such as agglomeration can also hinder their potential use. By creating nanostructured particles one can take optimum benefit from the desired properties while minimizing the adverse effects. We aim at developing high-precision routes for scalable production of nanostructured particles. Two gas-phase synthesis routes are explored. The first one - covering nanoparticles with a continuous layer - is carried out using atomic layer deposition in a fluidized bed. Through fluidization, the full surface area of the nanoparticles becomes available. With this process, particles can be coated with an ultra-thin film of constant and well-tunable thickness. For the second route - attaching nanoparticles to larger particles - a novel approach using electrostatic forces is demonstrated. The micron-sized particles are charged with one polarity using tribocharging. Using electrospraying, a spray of charged nanoparticles with opposite polarity is generated. Their charge prevents agglomeration, while it enhances efficient deposition at the surface of the host particle. While the proposed processes offer good potential for scale-up, further work is needed to realize large-scale processes. 展开更多
关键词 Nanoparticles Nanocomposite materials Coating Films Particle coating Atomic layer deposition Core-shell particles Electrospraying Electrohydrodynamic atomization Electrostatic forces Fluidization
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