Solution blow spinning of piezoelectric nanofiber mat for detecting mechanical and acoustic signals

Eman Elnabawy, Mazen Farag, Amira Soliman, Kamal Mahmoud, Nader Shehata, Remya Nair, Ishac Kandas, Rasheed Atif, Madeleine Combrinck, Jibran Khaliq, Islam Shyha, Ali Kilic, Ahmed H. Hassanin*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

11 Citations (Scopus)

Abstract

Solution blow spinning (SBS) technique can produce nanofibers (NFs) mat in large-scale production. In this work, the SBS was used to fabricate piezoelectric polyvinylidene fluoride (PVDF) NF membranes that can be utilized for energy harvesting applications. The effect of operating air pressure from (2–5 bar) on the surface morphology of the NFs has been studied. The structural analysis for crystalline polymorph β-phase for PVDF powder, casted film, electrospinning and SBS NFs has also been presented with the aid of Fourier-transform infrared spectroscopy and X-ray diffraction (XRD). Piezoelectric characteristics of PVDF NFs mats were tested by applying impact impulse with different weights from different heights between 1 and 10 cm. The sensitivity of the voltage response increased from 1.71 mV/g to 8.98 mV/g, respectively. Besides, the SBS generated PVDF mat is found to be sensitive to pressure forces in a range of few Newtons with the generated voltage according to detected sensitivity of 80 mV/N based on the analysis of the impact of a few Hertz mechanical vibrations. In addition, the produced SBS NFs were applied as an acoustic signal detector within different acoustic frequencies. The results suggest that the β-phase PVDF nanofibrous membrane produced via the SBS technique has a great potential to be used as a piezoelectric sensor.

Original languageEnglish
Article number51322
JournalJournal of Applied Polymer Science
Volume138
Issue number45
DOIs
Publication statusPublished - 5 Dec 2021

Bibliographical note

Publisher Copyright:
© 2021 Wiley Periodicals LLC.

Funding

The authors would like to thank Science, Technology & Innovation Funding Authority (STIFA) and British Council for providing funding for the Institutional Links Project (Newton‐Mosharafa Call between UK and Egypt, ID: 352360451 & ID: 30886) between Alexandria University, Egypt, and Northumbria University upon Tyne, UK.

FundersFunder number
STIFA
Science, Technology & Innovation Funding Authority
British Council30886, 352360451
Alexandria University

    Keywords

    • elastomers
    • membranes
    • sensors and actuators

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