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Hybrid Mineral-Polymeric Composite Materials on the Basis of the Polyaniline and Glauconite-Silica

Mykhaylo Yatsyshyn1, Oleksandr Reshetnyak1, 2, Nataliya Dumanchuk3, Yuriy Kulyk1, Nadiia Fartushok3 and Yuriy Stadnyk1
Affiliation: 
1Ivan Franko National University, 6, Kyryla & Mefodiya str., 79005 Lviv, Ukraine; M_Yatsyshyn@franko.lviv.ua 2Army Academy named after Hetman Petro Sahaydachnyi, 32, Gvardiys’ka str, 79012 Lviv, Ukraine 3Lviv Medical Institute, 76, Polishchuka str., 79015 Lviv, Ukraine
DOI: 
https://doi.org/10.23939/chcht07.04.441
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Abstract: 
Polyaniline/glauconite-silica (PАn / Gl-Si) composite were obtained by one-step in situ polymerization of aniline in the presence of microdispersion of natural mineral glauconite-silica. The physico-chemical properties (phase content, thermal stability, conductivity and magnetization) of the produced samples of composites with different ratio of components have been studied. It was shown that the polymeric component stipulates the conductivity for the synthesized composite samples, while the mineral particles stipulate their magnetic properties and higher thermal stability in comparison with individual polyaniline. Besides, it was determined that participation of the surface of glauconite-silica microparticles in the process of aniline polymerization leads to considerable increasing of ordering of the polymer in the composite.
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