Polymer nanofibers have established a robust foundation
and possess
immense potential in various emerging fields such as sensors and biotechnology.
In this study, aqueous dispersions of aramid nanofibers (ANFs) were
successfully prepared by using tannic acid (TA). Morphological analysis
revealed that TA effectively prevented self-aggregation of ANFs,
and preserved the nanofiber structure during TA-assisted solvent exchange.
Subsequently, the ANF and TA/ANF films were fabricated using casting
and vacuum-assisted filtration techniques. Notably, the tensile strength
of the casting TA/ANF film reached 393.8 MPa, exhibiting a remarkable
improvement of 41.3% compared to that of the pure ANF film. These
exceptional mechanical properties can be attributed to the well-dispersed
nanostructures, hydrogen-bonding interactions, zigzag structures,
and fiber-bridging effects. Furthermore, the TA/ANF film demonstrated
superior ultraviolet (UV) shielding capabilities, visible transparency
properties, and excellent resistance to chemical reagents. The above-mentioned
interesting findings demonstrate its potential as a nanofiber-reinforced
material for poly(vinyl alcohol) (PVA) composites.