Toward High Power Generating Piezoelectric Nanofibers:Influence of Particle Size and Surface Electrostatic Interaction ofCe–Fe2O3 and Ce–Co3O4 on PVDF

摘要

Development of flexible piezoelectric nanogenerator (PENG) is a real challenge for the next-generation energy-harvesting applications. In this paper, we report highly flexible PENGs based on poly(vinylidene fluoride) (PVDF)/2 wt % Ce–Fe2O3 and PVDF/2 wt % Ce–Co3O4 nanocomposite fibers. The incorporation of magnetic Ce–Fe2O3 and Ce–Co3O4 greatly affects the structural properties of PVDF nanofibers, especially the polymeric β and γ phases. In addition, the new composites enhanced the interfacial compatibility through electrostatic filler–polymer interactions. Both PVDF/Ce–Fe2O3 and PVDF/Ce–Co3O4 nanofibers-based PENGs, respectively, produce peak-to-peak output voltages of 20 and 15 V, respectively, with the corresponding output currents of 0.010 and 0.005 μA/cm² under the force of 2.5 N. Enhanced output performance of the flexible nanogenerator is correlated with the electroactive polar phases generated within the PVDF, in the presence of the nanomaterials. The designed nanogenerators respond to human wrist movements with the highest output voltage of 0.15 V, for the PVDF/Ce–Fe2O3 when subjected to hand movements. The overall piezoelectric powergeneration is correlated with the nanoparticle size and the existingfiller–polymer and ion–dipole interactions.