Enhanced energy harvesting from NF-PVDF piezoelectric material for wearable electronics: I– V characterization and charge-discharge performance

Authors

Ahmed Emara, Helwan UniversityFollow
Afaf Farag, Helwan UniversityFollow
Gehad Ali, The British University in EgyptFollow
Mohamed Mamdouh, The British University in EgyptFollow
Sameh O. Abdellatif, The British University in EgyptFollow
Khaled Nassar, Helwan UniversityFollow
Tamer Hamoud, Helwan UniversityFollow

Document Type

Article

Publication Date

Summer 7-25-2025

Abstract

This study explores the utilization of fabricated piezoelectric polyvinylidene fluoride nanofiber (NF-PVDF) materials in wearable electronic sensing applications by investigating their current-voltage ( I − V ) characteristics under controlled ultra-low-frequency excitation forces. The results demonstrate a significant power harvesting capability, achieving an output power of 0.12 µW/mm2 at an operating point of 5.04 V and 7.7 µA. Additionally, the piezoelectric harvester was integrated into a charging-discharge circuit alongside a rectifier capacitor and a typical IoT wearable sensor, leveraging the advantages of a flexible substrate. Experimental measurements of the charging and discharging curves confirm the effective energy management of the system, indicating a robust potential for deployment in real-world sensing applications. These findings highlight the promising application of NF-PVDF in sustainable energy harvesting for next-generation wearable technologies.

Recommended Citation

Emara, Ahmed; Farag, Afaf; Ali, Gehad; Mamdouh, Mohamed; Abdellatif, Sameh O.; Nassar, Khaled; and Hamoud, Tamer, "Enhanced energy harvesting from NF-PVDF piezoelectric material for wearable electronics: I– V characterization and charge-discharge performance" (2025). Electrical Engineering. 117.
https://buescholar.bue.edu.eg/elec_eng/117