Magnetically tunable enhanced performance of CoFe2O4-PVDF nanocomposite film-based piezoelectric nanogenerator

Flexible piezoelectric nanogenerator (PENG) using a poly(vinylidene fluoride)-cobalt ferrite (PVDF-CFO) nanocomposite film is prepared in which the output power of the PENG device can be tuned by the application of an external magnetic field. Ferromagnetic CFO nanoparticles were prepared by the hydrothermal method and are incorporated in the PVDF matrix using the drop casting technique. The presence of CFO in the PVDF matrix enhances the ferroelectric beta phase fraction of PVDF from 59% to 75% and also provides magnetic tunability to the PENG device. With the application of a 2.1 kG field, there is 2.33 times increment in instantaneous output power of the PENG, which is attributed to a decrease in the resistance of the nanocomposite film due to the alignment of the magnetic moment of CFO nanoparticles leading to a reduction in the scattering of mobile charges. These outcomes open up a possibility in piezomagnetotronic materials through the realization of magneto-sensitive multifunctional PENGs, which can be scaled up for fabricating compact, high-performance, portable devices for smart sensor applications.

Automated summary

In this study, a flexible piezoelectric nanogenerator with tunable output power using a PVDF-CFO nanocomposite film was prepared. By incorporating ferromagnetic CFO nanoparticles into the PVDF matrix, the ferroelectric beta phase fraction of PVDF was enhanced, providing magnetic tunability to the PENG device. The output power of the PENG increased with the application of an external magnetic field, attributed to the decrease in resistance of the nanocomposite film.