Abstract
Piezoelectric energy harvesting has attracted increasing attention over the last decade as a means for generating sustainable and longlasting energy from wasted mechanical energy. To develop self-powered wearable devices, piezoelectric materials should be flexible, stretchable, and bio-eco-friendly. This study proposed the fabrication of stretchable piezoelectric composites via dispersing perovskitestructured BaTiO3nanoparticles inside an Ecoflex polymeric matrix. In particular, the stretchable piezoelectric sensor array was fabricated via a simple and cost-effective spin-coating process by exploiting the piezoelectric composite comprising of BaTiO3nanoparticles, Ecoflex matrix, and stretchable Ag coated textile electrodes. The fabricated sensor generated an output voltage of ~4.3 V under repeated compressing deformations. Moreover, the piezoelectric sensor array exhibited robust mechanical stability during mechanical pushing of ~5,000 cycles. Finite element method with multiphysics COMSOL simulation program was employed to support the experimental output performance of the fabricated device. Finally, the stretchable piezoelectric sensor array can be used as a self-powered touch sensor that can effectively detect and distinguish mechanical stimuli, such as pressing by a human finger. The fabricated sensor demonstrated potential to be used in a stretchable, lead-free, and scalable piezoelectric sensor array.
Original language | English |
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Pages (from-to) | 312-317 |
Number of pages | 6 |
Journal | Journal of Sensor Science and Technology |
Volume | 31 |
Issue number | 5 |
DOIs | |
State | Published - Sep 2022 |
Keywords
- BaTiO
- Energy harvesting
- Piezoelectric
- Sensor array
- Stretchable