期刊
NANOTECHNOLOGY
卷 34, 期 4, 页码 -出版社
IOP Publishing Ltd
DOI: 10.1088/1361-6528/ac9a56
关键词
CuO; PVDF-HFP; piezoelectric nanogenerator; nanostructures; optical properties
A nanocomposite consisting of CuO and PVDF-HFP has been fabricated for flexible piezoelectric nanogenerators. The incorporation of optimal CuO nanostructures in PVDF-HFP increases the output voltage of the nanogenerator. Furthermore, the nanogenerator exhibits high power and can be enhanced under illumination condition.
Here, we report the fabrication of nanocomposite comprising of CuO and poly (vinylidene fluoride-hexafluoro propylene) (PVDF-HFP) for application in flexible piezoelectric nanogenerators (PENG). The chemically grown CuO nanostructures have been characterized through electron microscopy, x-ray diffraction, and spectroscopic techniques. It has been found that the incorporation of optimal CuO nanostructures in PVDF-HFP can increase the output voltage of the PENG by 22 times and is assigned to the increment in the effective dielectric constant of host PVDF-HFP. Further, the nanogenerator exhibits a maximum power of similar to 20 mu W cm(-2) at 3 M omega load and can charge a capacitor under continuous bio-mechanical impart. Further, upon slight alteration of the device configuration, the output of the nanocomposite-based nanogenerator can be enhanced under illumination condition. The increment in overall piezopotential through photoexcitation in optically active CuO nanostructures can be assigned to the increment in output voltage. The wavelength dependent output variation reveal the maximum output of the PENG under blue light. Further, under white light illumination, the nanogenerator exhibits a maximum power which is 3 times higher than in dark condition and can charge a capacitor 52 times faster. The development of such superior flexible and optically active nanogenerators are quite promising for futuristic self-powered devices operated under mechanical and solar energies.
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