2012 2(10)

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Andreev M.N.1,2, Bespalov I.S.2, Rebrov A.K.2, Safonov A.I.2, Timoshenko N.I.2

1 Novosibirsk State University, Novosibirsk, Russia
2 Institute of Thermophysics SB RAS, Novosibirsk, Russia


Andreev, M.N., Bespalov, I.S., Rebrov, A.K., Safonov, A.I. and Timoshenko, N.I., (2012) Gas jet deposition of metal nanoparticles into fluoropolymer matrix, Modern Science: Researches, Ideas, Results, Technologies, Iss. #2(10), PP. 172 - 175.


free jet; hexafluoropropylene oxide; pyrolysis; metal nanoparticles; composite film; plasmon resonance


The conditions of obtaining of composite structures of silver nanoparticles in fluoropolymer matrix by gas jet deposition method were considered. Deposition was carried out on a substrate made of glass and silicon from both jets of inert gas with metal nanoparticles and jet pyrolysis of hexafluoropropylene oxide. Variable parameters were the pressure in the chamber of the source of silver and its temperature. The capacity dependence of the obtained samples from the wavelength of the incident radiation in the visible range was investigated. It is established the obtained composite coatings have had the effect of the plasmon resonance. The resonance peak was observed under the given conditions in the area of radiation 450 - 480 nm. Plasmon resonance frequency did not change for all samples, obtained by the used gas-dynamic modes.


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