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Graphene oxide (GO) membranes were fabricated using vacuum filtration and their performance in the removal of dye and salts from effluent was investigated. GO flake size is known to influence the performance of composite membrane systems. Using smaller flake GO (SFGO) and larger flake GO (LFGO) systems, filtration studies demonstrated that both cationic Methylene Blue (MB) and anionic Methyl Orange (MO) could be effectively removed from water effectively using both systems. The highest removal rates of both dyes were achieved by the 0.10 mg/mL SFGO coating, rejecting 86.4% MB and 87.8% MO, at 2 bar with 5 mg/L dyes. For both GOs, the removal of MO was higher overall, which was attributed to electrostatic repulsion between the like-charged GO and dye. MB was found to adsorb strongly onto the GO coating. Desalination of NaCl, Na 2 SO 4 , MgSO 4 and (NH 4 ) 6 Mo 7 O 24 was found moderately successful, with performance degrading significantly with permeated volume. This was attributed to the Donnan Effect and expansion of GO interlayer spacing, due to the intercalation of water molecules. The presence of Na 2 SO 4 and MgSO 4 in MB was demonstrated to degrade both flux and dye rejection capability of both GOs, due to the neutralisation of the electronegativity driven by the salt cations. • Vacuum filtered GO membranes achieved selective dye and salt removal. • GO membrane performance governed by structure-property relations. • Rejection capabilities decreased with filtration pressure and dye concentration. • GO flake size and coating concentration controlled the separation performance. • Electrolyte presence adversely impacted flux and rejection of Methylene Blue (MB).
Exley et al. (Fri,) studied this question.
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