Cationic and anionic azo-dye removal from water by sulfonated graphene oxide nanosheets in Nafion membranes

Abstract

Graphene oxide flakes functionalized with 3-amino-1-propanesulfonic acid (denoted as GO_SULF) as a powder or incorporated into an ionomer membrane such as Nafion (DuPont) were studied for water purification applications. The adsorption and the photocatalytic activity of the GO_SULF powder itself or confined as a nano-additive in the membrane (Nafion–GO_SULF) were investigated by measuring the degradation of a cationic dye, methylene blue (MB), in the dark and under UV/Visible light illumination. The results were compared with the ability of these systems to degrade an anionic dye, methyl orange (MO), in order to evaluate the role of the polymer–dye interaction. The degradation of the azo dyes depends on the mutual interaction between GO_SULF flakes, the polymeric matrix and the dye: Nafion–GO_SULF strongly reduces MB both under dark and illumination conditions in the same way as the GO_SULF powder, while, for MO degradation, the composite membrane is more efficient than GO_SULF alone. Finally, the possibility of reusing the same photocatalytic material several times, which is the main advantage of embedding active nanomaterials in a polymer matrix, is demonstrated by the effective regeneration of the nanocomposite membranes.