High-Performance
Flexible Piezoelectric Nanogenerator
Based on Electrospun PVDF-BaTiO<sub>3</sub> Nanofibers for Self-Powered
Vibration Sensing Applications
In the present era of intelligent electronics and Internet
of Things
(IoT), the demand for flexible and wearable devices is very high.
Here, we have developed a high-output flexible piezoelectric nanogenerator
(PENG) based on electrospun poly(vinylidene fluoride) (PVDF)-barium
titanate (BaTiO3) (ES PVDF-BT) composite nanofibers with
an enhanced electroactive phase. On addition of 10 wt % BaTiO3 nanoparticles, the electroactive β-phase of the PVDF
is found to be escalated to ∼91% as a result of the synergistic
interfacial interaction between the tetragonal BaTiO3 nanoparticles
and the ferroelectric host polymer matrix on electrospinning. The
fabricated PENG device delivered an open-circuit voltage of ∼50
V and short-circuit current density of ∼0.312 mA m–2. Also, the PVDF-BT nanofiber-based PENG device showed an output
power density of ∼4.07 mW m–2, which is 10
times higher than that of a pristine PVDF nanofiber-based PENG device.
Furthermore, the developed PENG has been newly demonstrated for self-powered
real-time vibration sensing applications such as for mapping of mechanical
vibrations from faulty CPU fans, hard disk drives, and electric sewing
machines