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Generic Processing of Nanoparticle-based composite Coatings on Large Surfaces

Olivier Sublemontier 1 
1 LEDNA - Laboratoire Edifices Nanométriques
NIMBE UMR 3685 - Nanosciences et Innovation pour les Matériaux, la Biomédecine et l'Energie (ex SIS2M)
Abstract : We present an original and safe-by-design method for the elaboration of nanostructured coatings composed of nanoparticles embedded in a matrix. This versatile single step process operates under vacuum by combining jets of nanoparticles with magnetron sputtering. The chemical nature of nanoparticles and matrix can be chosen independently. Moreover, any source of nanoparticles in the gas phase can be used. For example, rtanoparticles can be synthesized in-situ by laser driven pyrolysis or combustion processes. A classical aerosol generator from previously synthesized nanoparticles can also be used. The proof of concept was completed using a laboratory apparatus. We have developed a new prototype for synthesizing homogenous nanocomposites thin film on surfaces that are large enough for some industrial needs. The ability to achieve synthesis on large surfaces is provided by the use of a series of several aerodynamic lenses implemented on the prototype set up between the source of nanoparticles and the deposition chamber. The number of aerodynamic lenses is not limited and the process is compatible with very large surfaces by increasing the number of lenses or roll-to roll coating processes on soft substrates. On-line characterization of the film is provided by in situ spectral ellipsometry. The lenses are composed of successive chambers separated by diaphragms usually used to produce collimated beam of nanoparticles. Numerical and experimental studies have demonstrated divergent and homogenous jet of nanoparticles by adapting the geometry of the lenses. As the speed acquired by the nanoparticles is high, their kinetic energy is sufficient to pass through the relatively high pressure (around 0.5 Pa) deposition chamber and get deposited on a substrate at a distance of 30 cm. The pressure in this cham ber is adequate for running a classical magnetron sputtering device used to deposit, on the same substrate and at the same time, the material constituting the matrix of the composite film. The ability to elaborate large and homogenous nanostructured films were investigated with different types of nanoaerosols of different sizes and densities. Samples composed of go Id nanoparticles will be shown. Numerous applications are already considered for this type of coatings, including photocatalysis, photovoltaic solar cells, aesthetic coatings for luxury industry, hard covering for tools or self-healing films.
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Submitted on : Wednesday, October 30, 2019 - 3:31:05 PM
Last modification on : Tuesday, January 4, 2022 - 5:12:59 AM


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  • HAL Id : cea-02339857, version 1


Olivier Sublemontier. Generic Processing of Nanoparticle-based composite Coatings on Large Surfaces. Material Science & Engineering 2018, Sep 2018, Darmstadt, Germany. ⟨cea-02339857⟩



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