期刊
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
卷 169, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.compositesa.2023.107518
关键词
A; Biocomposite; B; Electrical properties; C; Finite element analysis (FEA); E; Electrospinning
In this study, PLLA/ZnO oriented fibers were prepared through orientation electrospinning for a piezoelectric generator, eliminating the need for polarization and stretching post-processes. The resulting composite fibers showed macroscopic orientation, molecular alignment, increased crystallinity, and a higher polar phase for PLLA. The generator exhibited significant and stable piezoelectric signals over 1000s, increasing the open-circuit voltage to 7.9V, nearly 4.6 times larger than that of the random neat device. The oriented fibers and ZnO-induced stress concentration contributed to improved piezoelectricity, as confirmed by simulations. Additionally, the generator successfully charged a 10μF capacitor up to 2V at 210s and illuminated a LED, demonstrating its potential as a wearable self-powered sensor for monitoring human movement and health.
Herein, PLLA/ZnO oriented fibers were prepared via orientation electrospinning towards a piezoelectric generator, omitting polarization and stretching postprocesses. The composite fibers achieved macroscopic orientation and molecular alignment, as well as higher crystallinity and more polar phase for PLLA. Collectively, the resulting generator exhibited dramatic and stable piezoelectric signals over 1000 s, boosting the open-circuit voltage to 7.9 V, nearly 4.6 times larger than that of the random neat device. With the same changing tendency, the simulated results confirmed oriented fibers and ZnO induced stress concentration, imparting better piezoelectricity. Furthermore, the generated electricity from the generator with a short-circuit current of 286nA and an output power density of 1.25 mW cm-3 charged a 10 & mu;F capacitor up to 2 V at 210 s then illuminated a LED. Encouragingly, high flexibility and sensitivity allowed this device to function as a wearable self-powered sensor for differentiating human movement and monitoring human health.
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