Incorporation of barium titanate nanoparticles in piezoelectric PVDF membrane
The micro-vibration of piezoelectric polyvinylidene fluoride (PVDF) membranes has been shown to mitigate fouling. To improve the desired piezoelectric properties, piezoelectric barium titanate (BaTiO3) nanoparticles (NPs) were incorporated into PVDF membranes fabricated by non-solvent induced phase...
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sg-ntu-dr.10356-1527942021-10-09T20:11:12Z Incorporation of barium titanate nanoparticles in piezoelectric PVDF membrane Su, Yu Ping Sim, Lee Nuang Coster, Hans G. L. Chong, Tzyy Haur Interdisciplinary Graduate School (IGS) School of Civil and Environmental Engineering Singapore Membrane Technology Centre Nanyang Environment and Water Research Institute Engineering::Environmental engineering Piezoelectric Polyvinylidene Fluoride Membrane Barium Titanate The micro-vibration of piezoelectric polyvinylidene fluoride (PVDF) membranes has been shown to mitigate fouling. To improve the desired piezoelectric properties, piezoelectric barium titanate (BaTiO3) nanoparticles (NPs) were incorporated into PVDF membranes fabricated by non-solvent induced phase separation (NIPS). Due to the high surface energy of BaTiO3 NPs, the nanoparticles tended to agglomerate and were not dispersed uniformly. The silane coupling agent (3-Aminopropyl)triethoxysilane (APTES) with the BaTiO3 NPs showed enhanced compatibility and dispersion in the PVDF membrane. The resulting BaTiO3-PVDF membranes had similar finger-like pore structure as neat PVDF membrane. The dielectric strength, piezoelectric and mechanical properties of BaTiO3-PVDF membranes were enhanced. A linear correlation (R2 = 0.9391) between piezoelectric coefficient and critical flux was observed for poled BaTiO3-PVDF membranes under the influence of electrical AC signal (10 Vpp, 500 Hz) when colloidal silica was used as model foulant. The optimal BaTiO3-PVDF membrane (0.1 wt% BaTiO3, poled and AC applied) showed up to 51% increase in critical flux compared to the neat PVDF membrane (unpoled and no AC applied). Further, extended durations of multiple filtration cycles by up to a factor of 2 to 4 were observed. The membrane operation could be prolonged due to significant reduction in irreversible fouling. Economic Development Board (EDB) Accepted version The financial support of the Singapore Economic Development Board (EDB) to the Singapore Membrane Technology Centre (SMTC), Nanyang Environment & Water Research Institute (NEWRI) is greatly appreciated. 2021-10-01T04:31:50Z 2021-10-01T04:31:50Z 2021 Journal Article Su, Y. P., Sim, L. N., Coster, H. G. L. & Chong, T. H. (2021). Incorporation of barium titanate nanoparticles in piezoelectric PVDF membrane. Journal of Membrane Science, 640, 119861-. https://dx.doi.org/10.1016/j.memsci.2021.119861 0376-7388 https://hdl.handle.net/10356/152794 10.1016/j.memsci.2021.119861 640 119861 en Journal of Membrane Science © 2021 Elsevier B.V. All rights reserved. This paper was published in Journal of Membrane Science and is made available with permission of Elsevier B.V. application/pdf |
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Engineering::Environmental engineering Piezoelectric Polyvinylidene Fluoride Membrane Barium Titanate Su, Yu Ping Sim, Lee Nuang Coster, Hans G. L. Chong, Tzyy Haur Incorporation of barium titanate nanoparticles in piezoelectric PVDF membrane |
| description |
The micro-vibration of piezoelectric polyvinylidene fluoride (PVDF) membranes has been shown to mitigate fouling. To improve the desired piezoelectric properties, piezoelectric barium titanate (BaTiO3) nanoparticles (NPs) were incorporated into PVDF membranes fabricated by non-solvent induced phase separation (NIPS). Due to the high surface energy of BaTiO3 NPs, the nanoparticles tended to agglomerate and were not dispersed uniformly. The silane coupling agent (3-Aminopropyl)triethoxysilane (APTES) with the BaTiO3 NPs showed enhanced compatibility and dispersion in the PVDF membrane. The resulting BaTiO3-PVDF membranes had similar finger-like pore structure as neat PVDF membrane. The dielectric strength, piezoelectric and mechanical properties of BaTiO3-PVDF membranes were enhanced. A linear correlation (R2 = 0.9391) between piezoelectric coefficient and critical flux was observed for poled BaTiO3-PVDF membranes under the influence of electrical AC signal (10 Vpp, 500 Hz) when colloidal silica was used as model foulant. The optimal BaTiO3-PVDF membrane (0.1 wt% BaTiO3, poled and AC applied) showed up to 51% increase in critical flux compared to the neat PVDF membrane (unpoled and no AC applied). Further, extended durations of multiple filtration cycles by up to a factor of 2 to 4 were observed. The membrane operation could be prolonged due to significant reduction in irreversible fouling. |
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Interdisciplinary Graduate School (IGS) |
| author_facet |
Interdisciplinary Graduate School (IGS) Su, Yu Ping Sim, Lee Nuang Coster, Hans G. L. Chong, Tzyy Haur |
| format |
Article |
| author |
Su, Yu Ping Sim, Lee Nuang Coster, Hans G. L. Chong, Tzyy Haur |
| author_sort |
Su, Yu Ping |
| title |
Incorporation of barium titanate nanoparticles in piezoelectric PVDF membrane |
| title_short |
Incorporation of barium titanate nanoparticles in piezoelectric PVDF membrane |
| title_full |
Incorporation of barium titanate nanoparticles in piezoelectric PVDF membrane |
| title_fullStr |
Incorporation of barium titanate nanoparticles in piezoelectric PVDF membrane |
| title_full_unstemmed |
Incorporation of barium titanate nanoparticles in piezoelectric PVDF membrane |
| title_sort |
incorporation of barium titanate nanoparticles in piezoelectric pvdf membrane |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/152794 |
| _version_ |
1715201508481433600 |