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Highly permselective polyvinylidene fluoride-based cation-exchange membranes containing phosphorated graphene oxide for electrodialysis

Leila Ghadiri, Leila Naji, Mehran Javanbakht

2023Journal of environmental chemical engineering15 citationsDOIOpen Access PDF

Abstract

Phosphorated graphene oxide (PGO) was used to prepare polyvinylidene fluoride (PVDF)-based cation-exchange membrane for the electrodialysis (ED) process. The influences of PGO wt% on the physicochemical and electrochemical characteristics of the PVDF/PGO membranes were studied using different characterization methods. The morphology, oxidative stability, permselectivity, ion transport number, and electrochemical properties of the best PVDF/PGO membrane were compared with those of the bare Nafion-117 membrane and PVDF/GO membrane containing the same wt% of GO. The membrane containing 60 wt% PGO (PVDF/PGO60) exhibited a high water uptake of 44.69%, which was about 2.5 and 2 times higher than that achieved from PVDF/GO60 and Nafion, respectively. PVDF/PGO60 provided a considerably higher (∼10 times) ion exchange capacity (IEC) than Nafion. Electrochemical analysis revealed that Na + ions enjoyed a high diffusion coefficient within PVDF/PGO60, which was comparable to Nafion-117. This resulted in a low area resistance of 2.4 ± 0.3 Ω cm 2 , high permselectivity of 96.4%, and transport number of 97.8%. Moreover, PVDF/PGO60 exhibited a low weight loss of 1.90%, and a moderate resistance change of 19.79% after being immersed in the Fenton reagent for 9 h. The desirable electrochemical properties, and oxidative and mechanical stability of PVDF/PGO60 suggest that the PGO-containing PVDF-based membranes can be considered promising CEMs for application in the electromembrane desalination processes.

Topics & Concepts

Polyvinylidene fluorideMembraneElectrodialysisNafionElectrochemistryChemical engineeringFluorideIon exchangeGrapheneOxideMaterials scienceChemistryDesalinationInorganic chemistryIonElectrodeOrganic chemistryNanotechnologyPhysical chemistryBiochemistryEngineeringMembrane-based Ion Separation TechniquesFuel Cells and Related MaterialsMembrane Separation Technologies
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