Polyvinylidene fluoride-added ceramic powder composite near-field electrospinned piezoelectric fiber-based low-frequency dynamic sensors
In this study, near-field electrospinning (NFES) is used to fabricate BaxSr1–xTiO3 (BST)/poly(vinylidene fluoride) (PVDF) piezoelectric fiber composites with excellent mechanical properties and chemical properties. BST ceramic powder is blended with PVDF solution uniformly to prepare a solution of a...
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sg-ntu-dr.10356-1488182021-06-04T08:22:17Z Polyvinylidene fluoride-added ceramic powder composite near-field electrospinned piezoelectric fiber-based low-frequency dynamic sensors Pan, Cheng-Tang Wang, Shao-Yu Yen, Chung-Kun Kumar, Ajay Kuo, Shiao-Wei Zheng, Jing-Long Wen, Zhi-Hong Singh, Rachita Singh, Satya P. Khan, Muhammad Tahir Chaudhary, Ravi Kumar Dai, Xiaofeng Chandra Kaushik, Aman Wei, Dong-Qing Shiue, Yow-Ling Chang, Wei-Hsi School of Computer Science and Engineering Engineering::Computer science and engineering Ceramic Piezoelectric In this study, near-field electrospinning (NFES) is used to fabricate BaxSr1–xTiO3 (BST)/poly(vinylidene fluoride) (PVDF) piezoelectric fiber composites with excellent mechanical properties and chemical properties. BST ceramic powder is blended with PVDF solution uniformly to prepare a solution of appropriate conductance. The parameter for BST/PVDF fiber processing is based on PVDF fibers. Scanning electron microscopy, differential scanning calorimetry, microtensile testing, Fourier transform infrared spectroscopy, and electricity test of the blends of BST/PVDF fibers are incorporated. Mechanical properties of the fibers are then measured by microtensile testing. Effects of distinct ratios of Ba/Sr and the content of Ba0.7Sr0.3TiO3 ceramic powder on BST/PVDF piezoelectric fibers are discussed. Finally, BST/PVDF piezoelectric fiber composites are patterned on a poly(ethylene terephthalate) (PET)-based structure with an interdigital electrode as a BST/PVDF flexible energy harvester to capture ambient energy. The results show that the BST ceramic powder is ∼58–93 nm, and the diameters of piezoelectric fiber composites are ∼6.8–13.7 μm. The tensile strength of piezoelectric fiber composites is ∼74.92 MPa, and the Young’s coefficient tensile strength is ∼3.74 GPa. Mechanical properties are 2–3 times higher than those of pure PVDF piezoelectric fibers. The maximum open-circuit voltage and closed-loop current of BST/PVDF fibers reached ∼1025 mV and ∼391 nA, respectively. The electromechanical energy conversion efficiency of the BST/PVDF energy harvester is found to be 1–2 times higher than that of the PVDF energy harvester. It is confirmed and validated that the addition of BST ceramic powder could effectively increase the piezoelectric constant of PVDF piezoelectric fibers. Published version This work was supported by Kaohsiung Armed Forces General Hospital [grant number 108-35]. 2021-06-04T08:18:59Z 2021-06-04T08:18:59Z 2020 Journal Article Pan, C., Wang, S., Yen, C., Kumar, A., Kuo, S., Zheng, J., Wen, Z., Singh, R., Singh, S. P., Khan, M. T., Chaudhary, R. K., Dai, X., Chandra Kaushik, A., Wei, D., Shiue, Y. & Chang, W. (2020). Polyvinylidene fluoride-added ceramic powder composite near-field electrospinned piezoelectric fiber-based low-frequency dynamic sensors. ACS Omega, 5(28), 17090-17101. https://dx.doi.org/10.1021/acsomega.0c00805 2470-1343 0000-0002-4306-7171 0000-0003-1158-2133 0000-0001-7346-0970 0000-0003-4200-7502 https://hdl.handle.net/10356/148818 10.1021/acsomega.0c00805 32715194 2-s2.0-85088873625 28 5 17090 17101 en ACS Omega © 2020 American Chemical Society. This is an open access article published under an ACS AuthorChoice License, which permits copying and redistribution of the article or any adaptations for non-commercial purposes. application/pdf |
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Engineering::Computer science and engineering Ceramic Piezoelectric Pan, Cheng-Tang Wang, Shao-Yu Yen, Chung-Kun Kumar, Ajay Kuo, Shiao-Wei Zheng, Jing-Long Wen, Zhi-Hong Singh, Rachita Singh, Satya P. Khan, Muhammad Tahir Chaudhary, Ravi Kumar Dai, Xiaofeng Chandra Kaushik, Aman Wei, Dong-Qing Shiue, Yow-Ling Chang, Wei-Hsi Polyvinylidene fluoride-added ceramic powder composite near-field electrospinned piezoelectric fiber-based low-frequency dynamic sensors |
| description |
In this study, near-field electrospinning (NFES) is used to fabricate BaxSr1–xTiO3 (BST)/poly(vinylidene fluoride) (PVDF) piezoelectric fiber composites with excellent mechanical properties and chemical properties. BST ceramic powder is blended with PVDF solution uniformly to prepare a solution of appropriate conductance. The parameter for BST/PVDF fiber processing is based on PVDF fibers. Scanning electron microscopy, differential scanning calorimetry, microtensile testing, Fourier transform infrared spectroscopy, and electricity test of the blends of BST/PVDF fibers are incorporated. Mechanical properties of the fibers are then measured by microtensile testing. Effects of distinct ratios of Ba/Sr and the content of Ba0.7Sr0.3TiO3 ceramic powder on BST/PVDF piezoelectric fibers are discussed. Finally, BST/PVDF piezoelectric fiber composites are patterned on a poly(ethylene terephthalate) (PET)-based structure with an interdigital electrode as a BST/PVDF flexible energy harvester to capture ambient energy. The results show that the BST ceramic powder is ∼58–93 nm, and the diameters of piezoelectric fiber composites are ∼6.8–13.7 μm. The tensile strength of piezoelectric fiber composites is ∼74.92 MPa, and the Young’s coefficient tensile strength is ∼3.74 GPa. Mechanical properties are 2–3 times higher than those of pure PVDF piezoelectric fibers. The maximum open-circuit voltage and closed-loop current of BST/PVDF fibers reached ∼1025 mV and ∼391 nA, respectively. The electromechanical energy conversion efficiency of the BST/PVDF energy harvester is found to be 1–2 times higher than that of the PVDF energy harvester. It is confirmed and validated that the addition of BST ceramic powder could effectively increase the piezoelectric constant of PVDF piezoelectric fibers. |
| author2 |
School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Pan, Cheng-Tang Wang, Shao-Yu Yen, Chung-Kun Kumar, Ajay Kuo, Shiao-Wei Zheng, Jing-Long Wen, Zhi-Hong Singh, Rachita Singh, Satya P. Khan, Muhammad Tahir Chaudhary, Ravi Kumar Dai, Xiaofeng Chandra Kaushik, Aman Wei, Dong-Qing Shiue, Yow-Ling Chang, Wei-Hsi |
| format |
Article |
| author |
Pan, Cheng-Tang Wang, Shao-Yu Yen, Chung-Kun Kumar, Ajay Kuo, Shiao-Wei Zheng, Jing-Long Wen, Zhi-Hong Singh, Rachita Singh, Satya P. Khan, Muhammad Tahir Chaudhary, Ravi Kumar Dai, Xiaofeng Chandra Kaushik, Aman Wei, Dong-Qing Shiue, Yow-Ling Chang, Wei-Hsi |
| author_sort |
Pan, Cheng-Tang |
| title |
Polyvinylidene fluoride-added ceramic powder composite near-field electrospinned piezoelectric fiber-based low-frequency dynamic sensors |
| title_short |
Polyvinylidene fluoride-added ceramic powder composite near-field electrospinned piezoelectric fiber-based low-frequency dynamic sensors |
| title_full |
Polyvinylidene fluoride-added ceramic powder composite near-field electrospinned piezoelectric fiber-based low-frequency dynamic sensors |
| title_fullStr |
Polyvinylidene fluoride-added ceramic powder composite near-field electrospinned piezoelectric fiber-based low-frequency dynamic sensors |
| title_full_unstemmed |
Polyvinylidene fluoride-added ceramic powder composite near-field electrospinned piezoelectric fiber-based low-frequency dynamic sensors |
| title_sort |
polyvinylidene fluoride-added ceramic powder composite near-field electrospinned piezoelectric fiber-based low-frequency dynamic sensors |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/148818 |
| _version_ |
1702431162370097152 |