Self-protecting PVDF-PDA-TiO₂ membranes towards highly efficient and prolonged dye wastewater treatment by photocatalytic membranes
The photocatalytic membranes have been reported to treat textile dye effluents; however, it is challenging to maintain their long-term functionality due to the poor binding stability of nanoparticles on the membrane surface and the low stability of the membrane to UV radiation. To address this, PVDF...
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sg-ntu-dr.10356-1725162023-12-12T06:26:50Z Self-protecting PVDF-PDA-TiO₂ membranes towards highly efficient and prolonged dye wastewater treatment by photocatalytic membranes Le, Thi My Hanh Wang, Rong Sairiam, Sermpong School of Civil and Environmental Engineering Nanyang Environment and Water Research Institute Singapore Membrane Technology Centre Engineering::Environmental engineering Polydopamine Dye Wastewater Treatment The photocatalytic membranes have been reported to treat textile dye effluents; however, it is challenging to maintain their long-term functionality due to the poor binding stability of nanoparticles on the membrane surface and the low stability of the membrane to UV radiation. To address this, PVDF photocatalytic hollow fiber membranes were prepared by coating with polydopamine (PDA) for 1–4 h, then with titanium dioxide nanoparticles (TiO2) in the current study. SEM and EDX results showed that TiO2 adhered firmly to the PDA-pretreated membrane after ultrasonic treatment. The PDA layer protected the membranes from UV irradiation. The PVDF-TiO2 membrane without PDA pretreatment was destroyed after 24 h of UV irradiation, while after 9 days of continuous irradiation, the membranes treated with PDA for 2 h remained unchanged. Compared with the original membrane, applying PVDF membranes coated with PDA for 2 h and TiO2 for 1 h increased the Reactive Red 239 rejection and flux recovery rates by 13% and 40%, respectively, achieving 60% COD removal. The permeate flux and dye rejection rate were stable after 5 cycles (20 h of operation). This study demonstrates that the obtained membranes can perform prolonged membrane filtration with high-performance durability for dye wastewater treatment. This research project was funded by the National Research Council of Thailand and Chulalongkorn University (N42A650268) and the Thailand Science Research and Innovation Fund Chulalongkorn University (CU-FRB65_dis (16)_104_23_34). 2023-12-12T06:26:50Z 2023-12-12T06:26:50Z 2023 Journal Article Le, T. M. H., Wang, R. & Sairiam, S. (2023). Self-protecting PVDF-PDA-TiO₂ membranes towards highly efficient and prolonged dye wastewater treatment by photocatalytic membranes. Journal of Membrane Science, 683, 121789-. https://dx.doi.org/10.1016/j.memsci.2023.121789 0376-7388 https://hdl.handle.net/10356/172516 10.1016/j.memsci.2023.121789 2-s2.0-85161339468 683 121789 en Journal of Membrane Science © 2023 Elsevier B.V. All rights reserved. |
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Engineering::Environmental engineering Polydopamine Dye Wastewater Treatment Le, Thi My Hanh Wang, Rong Sairiam, Sermpong Self-protecting PVDF-PDA-TiO₂ membranes towards highly efficient and prolonged dye wastewater treatment by photocatalytic membranes |
| description |
The photocatalytic membranes have been reported to treat textile dye effluents; however, it is challenging to maintain their long-term functionality due to the poor binding stability of nanoparticles on the membrane surface and the low stability of the membrane to UV radiation. To address this, PVDF photocatalytic hollow fiber membranes were prepared by coating with polydopamine (PDA) for 1–4 h, then with titanium dioxide nanoparticles (TiO2) in the current study. SEM and EDX results showed that TiO2 adhered firmly to the PDA-pretreated membrane after ultrasonic treatment. The PDA layer protected the membranes from UV irradiation. The PVDF-TiO2 membrane without PDA pretreatment was destroyed after 24 h of UV irradiation, while after 9 days of continuous irradiation, the membranes treated with PDA for 2 h remained unchanged. Compared with the original membrane, applying PVDF membranes coated with PDA for 2 h and TiO2 for 1 h increased the Reactive Red 239 rejection and flux recovery rates by 13% and 40%, respectively, achieving 60% COD removal. The permeate flux and dye rejection rate were stable after 5 cycles (20 h of operation). This study demonstrates that the obtained membranes can perform prolonged membrane filtration with high-performance durability for dye wastewater treatment. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Le, Thi My Hanh Wang, Rong Sairiam, Sermpong |
| format |
Article |
| author |
Le, Thi My Hanh Wang, Rong Sairiam, Sermpong |
| author_sort |
Le, Thi My Hanh |
| title |
Self-protecting PVDF-PDA-TiO₂ membranes towards highly efficient and prolonged dye wastewater treatment by photocatalytic membranes |
| title_short |
Self-protecting PVDF-PDA-TiO₂ membranes towards highly efficient and prolonged dye wastewater treatment by photocatalytic membranes |
| title_full |
Self-protecting PVDF-PDA-TiO₂ membranes towards highly efficient and prolonged dye wastewater treatment by photocatalytic membranes |
| title_fullStr |
Self-protecting PVDF-PDA-TiO₂ membranes towards highly efficient and prolonged dye wastewater treatment by photocatalytic membranes |
| title_full_unstemmed |
Self-protecting PVDF-PDA-TiO₂ membranes towards highly efficient and prolonged dye wastewater treatment by photocatalytic membranes |
| title_sort |
self-protecting pvdf-pda-tio₂ membranes towards highly efficient and prolonged dye wastewater treatment by photocatalytic membranes |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/172516 |
| _version_ |
1787136587329437696 |