Please use this identifier to cite or link to this item: https://physrep.ff.bg.ac.rs/handle/123456789/1394
Title: Dielectric properties of iPP and aPS nanocomposites with core-shell particles obtained by treatment in transition metal salt solutions
Authors: Petronijević, Ivan 
Dudić, Duško A.
Cerović, Dragana D.
Maletić, Slavica 
Marinković, Filip 
Pergal, Marija V.
Andjelković, Ljubica
Keywords: core-shell particles;dielectric spectroscopy;electronic and electrical industrial applications;nanocomposites;processing technologies
Issue Date: 1-Sep-2023
Journal: Polymers for Advanced Technologies
Abstract: 
The dielectric properties of nanocomposites based on isotactic polypropylene (iPP) and atactic polystyrene (aPS) obtained by novel, simple, and environmentally friendly treatment technique have been analyzed in this study. The best treatment conditions to obtain nanocomposites with embedded core-shell particles with enhanced dielectric properties were considered. Treatment of polymer matrices in water solution iron(II)-chloride had the most pronounced precipitation effect, that was directly related to the appearance of higher transition metal concentrations in the iPP and aPS matrices, in comparison to treatments in the other two transition metal salts, MnCl2 and NiCl2. Relative dielectric constant and loss tangent have been studied in the frequency range from 20 Hz to 9 MHz. Embedded core-shell nanoparticles (from 15 to 150 nm in diameter) in a very small amount (1.72E-8 mol/cm3 to 1.17E-5 mol/cm3) resulted in significant improvement (2.5% up to 9.1%) and stabilization of relative dielectric constant value toward higher frequencies and also lowering loss tangent in compare to starting polymer matrices. These properties indicate that materials obtained with the presented treatment technique can be applied as microelectronic packing and with further development of the method in order to obtain a higher concentration of metal ions as energy storage devices.
URI: https://physrep.ff.bg.ac.rs/handle/123456789/1394
ISSN: 10427147
DOI: 10.1002/pat.6110
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