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Fluoride Removal Using Nanofiltration-Ranged Polyamide Thin-Film Nanocomposite Membrane Incorporated Titanium Oxide Nanosheets.

Fekri Abdulraqeb Ahmed AliJaved AlamSaif M H QaidArun Kumar ShuklaAhmed Sadeq Al-FateshAhmad M AlghamdiFarid FadhillahAhmed I OsmanMansour Alhoshan
Published in: Nanomaterials (Basel, Switzerland) (2024)
Drinking water defluoridation has attracted significant attention in the scientific community, from which membrane technology, by exploring thin film nanocomposite (TFN) membranes, has demonstrated a great potential for treating fluoride-contaminated water. This study investigates the development of a TFN membrane by integrating titanium oxide nanosheets (TiO 2 NSs) into the polyamide (PA) layer using interfacial polymerization. The characterization results suggest that successfully incorporating TiO 2 NSs into the PA layer of the TFN membrane led to a surface with a high negative charge, hydrophilic properties, and a smooth surface at the nanoscale. The TFN membrane, containing 80 ppm of TiO 2 NSs, demonstrated a notably high fluoride rejection rate of 98%. The Donnan-steric-pore-model-dielectric-exclusion model was employed to analyze the effect of embedding TiO 2 NSs into the PA layer of TFN on membrane properties, including charge density (X d ), the pore radius (r p ), and pore dielectric constant (ε p ). The results indicated that embedding TiO 2 NSs increased X d and decreased the εp by less than the TFC membrane without significantly affecting the r p . The resulting TFN membrane demonstrates promising potential for application in water treatment systems, providing an effective and sustainable solution for fluoride remediation in drinking water.
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