Fabrication of a super-hydrophobic and high-roughness terrace-effect membrane for enhanced flux and fouling resistance

The current study reported a novel terrace effect on the membrane surface, which is a straightforward and practical approach to enhancing membrane performance characterized by high roughness, thermal stability, and extended durability. We prepared pure PVDF and terraced PVDF membrane using several m...

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Published inDesalination and water treatment Vol. 322; p. 101153
Main Authors Talukder, Md Eman, Talukder, Md. Romon, Pervez, Md. Nahid, Kujawski, Wojciech, Figoli, Alberto, Naddeo, Vincenzo
Format Journal Article
LanguageEnglish
Published Elsevier Inc 01.04.2025
Elsevier
Subjects
High roughness
Membrane distillation
Rice terrace cultivation
Super-hydrophobic
Surface modification
Terrace effect
Surface modification
High roughness
Rice terrace cultivation
Super-hydrophobic
Terrace effect
Membrane distillation
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Abstract The current study reported a novel terrace effect on the membrane surface, which is a straightforward and practical approach to enhancing membrane performance characterized by high roughness, thermal stability, and extended durability. We prepared pure PVDF and terraced PVDF membrane using several membrane fabrication methods, Delayed non-solvent Induced Phase Separation (D-NIPS) and Thermally Induced Phase Separation (TIPS), along with Vapor-Induced Phase Separation (VIPS) processes with solvent/water mix vapor flow. These methods were complemented by adjusting the coagulation bath composition and temperature, followed by surface fluorination and surfactant sodium dodecyl sulfate (SDS) to reduce the membrane's surface energy and the surface tension of the feed saltwater. The resulting super-hydrophobic pure PVDF, terraced effect porous PVDF membranes, terraced effect PVDF-FS membranes with high roughness 72 ± 4.3 nm, 360 ± 20 nm, 401 ± 24 nm, and a water contact angle (WCA) of 109 ± 1.1°, 138 ± 1.5°, 147 ± 2.9°. Our results demonstrated that membranes with terrace effect super-hydrophobic surfaces achieved a high flux of 9.6 Lm−2h−1 for pure PVDF, and 25.2 Lm−2h−1 for terrace effect porous PVDF, offering a significant advantage for MD treatment. [Display omitted] •Designed a new surface structure on the membrane surface.•Terrace-effect porous membrane with high roughness and superhydrophobicity properties.•New structure improved the flux and fouling resistance of membrane.•Terrace-effect MD membrane retard membrane scaling.
AbstractList The current study reported a novel terrace effect on the membrane surface, which is a straightforward and practical approach to enhancing membrane performance characterized by high roughness, thermal stability, and extended durability. We prepared pure PVDF and terraced PVDF membrane using several membrane fabrication methods, Delayed non-solvent Induced Phase Separation (D-NIPS) and Thermally Induced Phase Separation (TIPS), along with Vapor-Induced Phase Separation (VIPS) processes with solvent/water mix vapor flow. These methods were complemented by adjusting the coagulation bath composition and temperature, followed by surface fluorination and surfactant sodium dodecyl sulfate (SDS) to reduce the membrane's surface energy and the surface tension of the feed saltwater. The resulting super-hydrophobic pure PVDF, terraced effect porous PVDF membranes, terraced effect PVDF-FS membranes with high roughness 72 ± 4.3 nm, 360 ± 20 nm, 401 ± 24 nm, and a water contact angle (WCA) of 109 ± 1.1°, 138 ± 1.5°, 147 ± 2.9°. Our results demonstrated that membranes with terrace effect super-hydrophobic surfaces achieved a high flux of 9.6 Lm−2h−1 for pure PVDF, and 25.2 Lm−2h−1 for terrace effect porous PVDF, offering a significant advantage for MD treatment.
The current study reported a novel terrace effect on the membrane surface, which is a straightforward and practical approach to enhancing membrane performance characterized by high roughness, thermal stability, and extended durability. We prepared pure PVDF and terraced PVDF membrane using several membrane fabrication methods, Delayed non-solvent Induced Phase Separation (D-NIPS) and Thermally Induced Phase Separation (TIPS), along with Vapor-Induced Phase Separation (VIPS) processes with solvent/water mix vapor flow. These methods were complemented by adjusting the coagulation bath composition and temperature, followed by surface fluorination and surfactant sodium dodecyl sulfate (SDS) to reduce the membrane's surface energy and the surface tension of the feed saltwater. The resulting super-hydrophobic pure PVDF, terraced effect porous PVDF membranes, terraced effect PVDF-FS membranes with high roughness 72 ± 4.3 nm, 360 ± 20 nm, 401 ± 24 nm, and a water contact angle (WCA) of 109 ± 1.1°, 138 ± 1.5°, 147 ± 2.9°. Our results demonstrated that membranes with terrace effect super-hydrophobic surfaces achieved a high flux of 9.6 Lm−2h−1 for pure PVDF, and 25.2 Lm−2h−1 for terrace effect porous PVDF, offering a significant advantage for MD treatment. [Display omitted] •Designed a new surface structure on the membrane surface.•Terrace-effect porous membrane with high roughness and superhydrophobicity properties.•New structure improved the flux and fouling resistance of membrane.•Terrace-effect MD membrane retard membrane scaling.
ArticleNumber 101153
Author Kujawski, Wojciech
Naddeo, Vincenzo
Pervez, Md. Nahid
Talukder, Md Eman
Figoli, Alberto
Talukder, Md. Romon
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  givenname: Md. Nahid
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  givenname: Wojciech
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  organization: Sanitary Environmental Engineering Division (SEED), Department of Civil Engineering, University of Salerno, Fisciano 84084, Italy
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Keywords Surface modification
High roughness
Rice terrace cultivation
Super-hydrophobic
Terrace effect
Membrane distillation
Language English
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  year: 2022
  ident: 10.1016/j.dwt.2025.101153_bib44
  article-title: Molecular compatibility and hydrogen bonding mechanism of PES/PEI blends
  publication-title: Polymers
  doi: 10.3390/polym14153046
– volume: 693
  year: 2024
  ident: 10.1016/j.dwt.2025.101153_bib10
  article-title: Approaching ratio as a guideline for substrate design of forward osmosis membranes
  publication-title: J Membr Sci
  doi: 10.1016/j.memsci.2023.122332
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Snippet The current study reported a novel terrace effect on the membrane surface, which is a straightforward and practical approach to enhancing membrane performance...
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elsevier
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StartPage 101153
SubjectTerms High roughness
Membrane distillation
Rice terrace cultivation
Super-hydrophobic
Surface modification
Terrace effect
Title Fabrication of a super-hydrophobic and high-roughness terrace-effect membrane for enhanced flux and fouling resistance
URI https://dx.doi.org/10.1016/j.dwt.2025.101153
https://doaj.org/article/f36c4080b66a4217beec702b4a369a74
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