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A superhydrophilic bilayer structure of a nylon 6 nanofiber/cellulose membrane and its characterization as potential water filtration media

Ahmad Fauzi, Dian Ahmad Hapidin, Muhammad Miftahul Munir, Ferry Iskandar, Khairurrijal Khairurrijal

2020RSC Advances34 citationsDOIOpen Access PDF

Abstract

, viscosity, conductivity, and surface tension, showed a strong relationship between the solution concentration and these parameters, which later changed the fabricated fiber sizes. The FTIR spectra depicted complete solvent evaporation after the electrospinning process. Smaller nanofiber diameters could improve the mechanical strength of the membranes. The porosity test showed a strong relationship between the nanofiber diameter and the pore size and pore distribution of the membranes. The water contact angle measurement showed the significant influence of the cellulose membrane on increasing the hydrophilicity of the bilayer structure, which then improved the membrane flux. The particle rejection test, using PSL sizes of 308 and 450 nm, showed high rejection (above 98%) for all sample thickness variations. Overall, the bilayer structure of the nylon 6 nanofibers/cellulose membranes showed excellent and promising performance as water filter media.

Topics & Concepts

SuperhydrophilicityNanofiberBilayerFiltration (mathematics)CelluloseMembraneCharacterization (materials science)Chemical engineeringMaterials scienceChemistryPolymer chemistryPolymer scienceNanotechnologyComposite materialContact angleEngineeringMathematicsStatisticsBiochemistryElectrospun Nanofibers in Biomedical ApplicationsAdvanced Sensor and Energy Harvesting MaterialsSurface Modification and Superhydrophobicity
A superhydrophilic bilayer structure of a nylon 6 nanofiber/cellulose membrane and its characterization as potential water filtration media | Litcius