Abstract

A number of studies have demonstrated that the mechanical properties of electrospun polymeric nanofibrous scaffolds are enhanced with the incorporation of graphene and its derivatives, thus developing their applications in hard tissue engineering. However, our understanding of the relationship between the microstructure and properties of these fibrous scaffolds and how they are influenced by graphene oxide (GO) and reduced graphene oxide (RGO) loading is much more limited. Thus, in this paper, poly(ε-caprolactone) (PCL)/GO and RGO nanocomposite nanofibers containing 0, 0.1, 0.5 and 1wt.% GO and RGO were prepared using an electrospinning technique. With the addition of 0.1wt.% of GO and RGO nanosheets in PCL, the tensile strength of PCL scaffolds increased over ~160 and 304% respectively and elastic modulus increased over 103 and 163% due to the good dispersion of the nanosheets and their interaction with the molecular chains of PCL. These were supported by the parallel increase in relaxation time and molecular orientation of PCL chains at the presence of nanosheets with a loading of 0.1wt.%. The enhancement effect of the nanosheets was weakened with an increase in GO and RGO loading up to 1wt.% in which it is connected to a partial exfoliation of the nanosheets.

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