Table 1.
Composition of prepared 15 wt.% PVA solutions.
Fig 1.
SEM images of electrospun nanofibers.
A) SEM images of the reinforced PVA nanofibers at different loading of CNC and Ti3C2TX (Table 1), B) dispersion pattern of Ti3C2TX shown by EDS mapping of sample C0M2 where; C (yellow), O (oxygen) and Ti (green).
Fig 2.
2D and 3D AFM phase images of A) C2M0, B) C0M2 and C) C1M1.
Fig 3.
Dynamic mechanical analysi of electrospun mats.
A) Storage modulus of PVA samples contain CNC and Ti3C2TX fillers; B) tan δ of PVA fibres contain CNC and Ti3C2TX fillers.
Fig 4.
Mechanical properties of prepared PVA electrospun nanofibers.
Young´s modulus, B) Tensile strength and C) Elongation at break.
Fig 5.
TGA of PVA electrospun nanofibers containing CNC and Ti3C2TX fillers.
Fig 6.
DC conductivity vs. frequency at 20°C for the Ti3C2Tx/CNC/PVA nanofiber samples with different composition.
Fig 7.
Temperature dependence of σdc for the Ti3C2Tx/CNC/PVA nanofiber samples with different composition.
Table 2.
Conduction activation energy for the nanofiber composites.