A Facile Approach of Fabricating Electrically Conductive Knitted Fabrics Using Graphene Oxide and Textile-Based Waste Material

This research investigated a feasible approach to fabricating electrically conductive knitted fabrics using previously wet-spun wool/polyacrylonitrile (PAN) composite fibre. In the production of the composite fibre, waste wool fibres and PAN were used, whereby both the control PAN (100% PAN) and wool/PAN composite fibres (25% wool) were knitted into fabrics. The knitted fabrics were coated with graphene oxide (GO) using the brushing and drying technique and then chemically reduced using hydrazine to introduce the electrical conductivity. The morphological study showed the presence of GO sheets wrinkles on the coated fabrics and their absence on reduced fabrics, which supports successful coating and a reduction of GO. This was further confirmed by the colour change properties of the fabrics. The colour strength (K/S) of the reduced control PAN and wool/PAN fabrics increased by similar to 410% and similar to 270%, and the lightness (L*) decreased similar to 65% and similar to 71%, respectively, compared to their pristine fabrics. The Fourier transform infrared spectroscopy showed the presence and absence of the GO functional groups along with the PAN and amide groups in the GO-coated and reduced fabrics. Similarly, the X-ray diffraction analysis exhibited a typical 2 theta peak at 10SUPERSCRIPT ZERO that represents the existence of GO, which was demolished after the reduction process. Moreover, the wool/PAN/reduced GO knitted fabrics showed higher electrical conductivity (similar to 1.67 S/cm) compared to the control PAN/reduced GO knitted fabrics (similar to 0.35 S/cm). This study shows the potential of fabricating electrically conductive fabrics using waste wool fibres and graphene that can be used in different application fields.

Automated summary

This research investigated a feasible approach to fabricating electrically conductive knitted fabrics using previously wet-spun wool/PAN composite fiber. The study successfully introduced electrical conductivity into knitted fabrics by coating them with graphene oxide and chemically reducing them. Analysis showed significant changes in color, chemical structure, and electrical conductivity, confirming the success of the fabrication process and demonstrating the potential for applications in various fields.