Dr. Nisar, Muhammad

The use of biodegradable polymers to mitigate the environmental pollution is one of the hot topics of research in the recent years. The current work presents the graphene oxide (GO) nanoparticles functionalized with two types of alkylamines (decylamine (DA) and octadecylamine (ODA)) synthesized at two different temperatures; 25 ◦C (GODA1 and GOODA1) and 80 ◦C (GODA2 and GOODA2), which were used as fillers to prepare PLA nanocomposites and their barrier, mechanical, and thermal properties were studied. The elemental analysis showed 2 wt% to 4 wt% of nitrogen content for functionalized GO, confirming the presence of alkyl chains in its structure. The reactions carried out at 80 ◦C (GODA2 and GOODA2) are the ones that showed the highest mass yields, registering a 7% and 50% increase in the total mass, respectively. These results were supported by X-ray diffraction (XRD), FT-IR spectroscopy and thermogravimetric Analysis (TGA) analyses. The optical microscopy images of the nanocomposites showed that the modified GO has a higher affinity than the GO with the PLA matrix, observing good dispersion at low loads of modified GO (0.2 wt%), with an increasing tendency to form agglomerates for higher loads. Furthermore, the elastic modulus of all nanocomposites showed a decreasing trend, mainly attributed to the formation of agglomerates and the decrease in the crystallinity of the composites. The oxygen permeability progressively decreases with increasing nanoparticle load, the nanocomposites pre- pared with GODA2 and GOODA2 presented the best results, registering decreases of 28.6% and 30.4% for 2 wt% loads, respectively. On the other hand, the permeability to water vapor decreased by 36.0% and 50.2%, for loads of 0.2 wt% of GODA2 and GOODA2, respectively. However, for higher amount of filler no significant im- provements was detected. The results shows that the addition of modified GO to PLA improves its barrier properties, and that its composites could be used in food packaging.

The focus of the present work is to prepare low‐density polyethylene (LDPE)‐graphene (G) nanocomposite films with improved gas barrier properties by melt extrusion. A narrow range of the graphene (0.05–0.3 wt.%) as filler was used in the LDPE matrix. The rheological analysis indicating that there is no significant influence on the LDPE chains mobility with the addition of filler. The nanocomposites percent crystallinity (Xc%) increase from 25.0% to 31.6% compared to neat LDPE. The X‐ray diffractogram shows a change in width half height of the peak positioned at 26° ((002) plane) from 0.69 (graphite) to 1.24 (graphene), revealing the asymmetry of this plane. The optical microscopy images show a good dispersion of the nanoparticles in the polymer matrix. The mechanical properties of the nanocomposites in longitudinal direction demonstrate better improvement with addition of the filler as compared to the transverse direction. The contact angle measurements of nanocomposites for water and ethylene glycol do not shows a significant variation in comparison to neat LDPE. The nanocomposites show 26% enhancement in the oxygen barrier property. Thus, here we present the cost‐effective LDPE‐graphene nanocomposites with improve oxygen barrier property, which can be used in different industrial application especially in food packaging.