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Synthesis and physiochemical performances of PVC-sodium polyacrylate and PVC-sodium polyacrylate-graphite composite polymer membrane

Abdul Hamid, Muhammad Khan, Fakhar Hussain, Amir Zada, Tiehu Li, Dang Alei, Amjad Ali

2021Zeitschrift für Physikalische Chemie30 citationsDOI

Abstract

Abstract Three types (type-A, B, and C) of composite polymeric membranes (CPMs) based on poly vinyl chloride (PVC) and different fillers (sodium polyacrylate and sodium polyacrylate-graphite) soaked in water and 0.5 N HCl were prepared using solvent casting method. Different physicochemical parameters such as microscopic surface study, water uptake, perpendicular swelling, density, porosity (ε), ion exchange capacity, and conductivity of the as the prepared CPMs were evaluated. Interestingly, type-A CPM cast with filler-A has greater values of the above parameters except density and ionic conductivity than those of type-B and C CPMs. The water uptake of type-A, B and C composite membranes was respectively in the range of 220.42–534.70, 59.64–41.65, and 15.94–2.62%. Ion exchange capacity of type-A, B and C CPMs was in the range of 3.669 × 10 7 –2.156 × 10 7 , 5.948 × 10 7 –1.258 × 10 7 , and 1.454 × 10 7 –1.201 × 10 7 m.eq.g −1 respectively while the conductivity order was type-A < B < C. These types of CPMs may be helpful in many applications including proton exchange membranes, fuel cell like devices, as sensors for different metals, gas purification, water treatment, and battery separators.

Topics & Concepts

Sodium polyacrylateMembraneSodiumComposite numberGraphiteIon exchangeCastingMaterials sciencePolymerSwellingNuclear chemistryChemical engineeringChemistryPolymer chemistryComposite materialIonOrganic chemistryMetallurgyBiochemistryRaw materialEngineeringFuel Cells and Related MaterialsMembrane-based Ion Separation TechniquesMembrane Separation Technologies
Synthesis and physiochemical performances of PVC-sodium polyacrylate and PVC-sodium polyacrylate-graphite composite polymer membrane | Litcius