Two catalytic systems, metallocene-based and Ti-based were used to synthesize by in situ polymerization the composites of polypropylene and few-layer graphene nanoparticles, prepared by chemical or thermal reduction of graphite oxide. The effect of metallocene and titanium catalytic systems on the properties of nanocomposites and distribution of nanoparticles in polymer matrix is investigated in detail. The data on electrical and thermal properties of nanocomposites are presented. POLYM.ENG. SCI., 00:000-000, a NG was prepared by milling artificial graphite MPG-6 in inert atmosphere from specific surface area S sp 5 8 m 2 /g to S sp 5 480 m 2 /g. Polymerization in liquid propylene at 708C via route 1.FIG. 7. Frequency dependence of ac conductivity for composites synthesized with Cat-1: PP/GNP sonic (a) 1-0.1% wt, 2-1.8% wt, 3-6.2% wt, 4-11% wt, and PP/TRGO sonic (b) 1-0.2% wt, 2-3.3% wt, and 3-10% wt.FIG. 8. Frequency dependence of ac conductivity for composites synthesized with Cat-2. (a) PP/GNP: 1-1.1% wt, 2-2% wt, 3-4.6% wt, and (b) PP/TRGO 1-0.35% wt, 2-2.5% wt, and 3-PP/NG 2.7% wt.
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