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Incorporating functionalized silica nanoparticles in polyethersulfone‐based anion exchange nanocomposite membranes

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In order to investigate for anion exchange membranes (AEMs) with improved properties, four series of polyethersulfone-based composite AEMs are fabricated by incorporating pristine and three functionalized silica nanoparticles containing propylamine,… Click to show full abstract

In order to investigate for anion exchange membranes (AEMs) with improved properties, four series of polyethersulfone-based composite AEMs are fabricated by incorporating pristine and three functionalized silica nanoparticles containing propylamine, trimethylpropylamine, and melamine-based dendrimer amine groups. The results show that by choosing appropriate functional agent, anion exchange membranes with improved parameters can be achieved. The polymeric matrix of the membranes is synthesized by chloromethylation of polyethersulfone using thionyl chloride followed by amination with trimethylamine (TMA). The effectiveness of chloromethylation process is confirmed by 1H NMR analysis. The effects of functional groups on characteristic and transport properties of the prepared composite membranes i.e., SEM, IEC, water uptake, porosity transport properties, and conductivity are investigated. The scanning electron microscope images illustrates that the synthesized membranes possess dense structures. Ion exchange capacity (IEC), water uptake, transport properties, and conductivity of the composite membranes are measured. In addition, the morphology and thermal stability are characterized. IECs and ion conductivities of up to 1.45 meq g−1 and 45.46 mS cm−1 and moderate transport characteristics are obtained from the modified membranes which confirm that these membranes are appropriate for applying in electro-membrane processes. © 2016 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2017, 134, 44596.

Keywords: anion exchange; functionalized silica; silica nanoparticles; polyethersulfone based; exchange

Journal Title: Journal of Applied Polymer Science
Year Published: 2017

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