Phase composition and morphology of nanostructured coatings deposited by laser dispersion of a mixture of polyethylene with iron oxalate
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KSU Publ.
Abstract
Peculiarities of forming of iron oxide coatings with reinforced carbon nanostructures from gas phase generated
by laser dispersion of composite target were explored. Influence of technological modes of heat treatment
on morphology and phase composition of nanostructured film layers was determined. It was found that on a
substrate highly dispersed layers containing carbon nanostructures are formed. Using Raman spectroscopy it
was shown that in oxide matrix carbon structures, which are mainly in the form of planar located nanotubes,
appear. It was found that with a mass ratio of polyethylene and iron oxalate equal to 1:1, the distribution of
the formed nanostructures in size is unimodal with a maximum near 20 nm. At dispersing of polyethylene and
iron oxalate mixture with mass ratio 1:2 in deposited layers nanotubes have the least defectiveness. Patterns
of influence on morphology and coatings phase composition of relative component abundance in being dispersed
by laser radiation composite target were determined. It was shown that with the growing of iron oxalate
concentration in the target coating structural heterogeneity increases, subroughness and average size of
separate nanostructures in the deposited condensate grow. The obtained polymer matrix nanocomposite films
can be used in sensors.
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Rudenkov A.S. Phase composition and morphology of nanostructured coatings deposited by laser dispersion of a mixture of polyethylene with iron oxalate/A.S. Rudenkov [et al]//Қарағанды университетінің хабаршысы. ФИЗИКА сериясы = Вестник Карагандинского университета. Серия ФИЗИКА.= Bulletin of the Karaganda university. PHYSICS Series. -2020. №3. Р.22-30.