Journal Article10.1021/ES400571G
Enabling graphene oxide nanosheets as water separation membranes.
1.3K
TL;DR: It is emphasized that the facile synthesis of a GO membrane exploiting the ideal properties of inexpensive GO materials offers a myriad of opportunities to modify its physicochemical properties, potentially making the GO membrane a next-generation, cost-effective, and sustainable alternative to the long-existing thin-film composite polyamide membranes for water separation applications.
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Abstract: We report a novel procedure to synthesize a new type of water separation membrane using graphene oxide (GO) nanosheets such that water can flow through the nanochannels between GO layers while unwanted solutes are rejected by size exclusion and charge effects. The GO membrane was made via layer-by-layer deposition of GO nanosheets, which were cross-linked by 1,3,5-benzenetricarbonyl trichloride, on a polydopamine-coated polysulfone support. The cross-linking not only provided the stacked GO nanosheets with the necessary stability to overcome their inherent dispensability in water environment but also fine-tuned the charges, functionality, and spacing of the GO nanosheets. We then tested the membranes synthesized with different numbers of GO layers to demonstrate their interesting water separation performance. It was found that the GO membrane flux ranged between 80 and 276 LMH/MPa, roughly 4–10 times higher than that of most commercial nanofiltration membranes. Although the GO membrane in the present deve...
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Citations
Carbon membranes for efficient water-ethanol separation.
Simon Gravelle,Hiroaki Yoshida,Hiroaki Yoshida,Laurent Joly,Christophe Ybert,Lydéric Bocquet +5 more
TL;DR: In this paper, the authors demonstrate the possibility of an efficient water-ethanol separation using nanoporous carbon membranes, namely, carbon nanotube membranes, nanoporous graphene sheets, and multilayer graphene membranes.
Performance and mechanisms for the removal of phthalates and pharmaceuticals from aqueous solution by graphene-containing ceramic composite tubular membrane coupled with the simultaneous electrocoagulation and electrofiltration process.
TL;DR: It is shown that the removal efficiencies for DnBP and DEHP were 99%, whereas 32-97% for cephalexin (CLX), sulfamethoxazole (SMX) and caffeine (CAF), and a comparison of the removal efficiency was made among various tubular composite membranes reported.
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Reduced wrinkling in GO membrane by grafting basal-plane groups for improved gas and liquid separations
TL;DR: In this article, a plane-plane connection of GO sheets was promoted in supported GO membranes by grafting oxalic acid (OA) molecules in GO basal plane, with subsequent crosslinking by ethylene diamine (EDA), better packing structure can be achieved with reduced wrinkling.
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Membranes prepared from graphene-based nanomaterials for sustainable applications: a review
TL;DR: Graphene-containing membranes (GCMs) as discussed by the authors are advanced separation devices constructed from or modified by graphene and its derivatives; these membranes not only present attractive functions and performance but also generate less residual nanomaterials afterwards, thus lowering impacts to the environment compared to those caused by directly using graphene-based materials.
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Selective reduction of epoxy groups in graphene oxide membrane for ultrahigh water permeation
Ruobing Yi,Xinming Xia,Rujie Yang,Risheng Yu,Fangfang Dai,Junlang Chen,Wei Liu,Minghong Wu,Jing Xu,Liang Chen +9 more
TL;DR: In this article, a modified electron beam irradiation (EBI) was used to reduce the oxygen-containing groups in the graphene oxide (GO) membranes to achieve high water permeability.
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Preparation and Characterization of Graphene Oxide Paper
Dmitriy A. Dikin,Sasha Stankovich,Eric Zimney,Richard D. Piner,Geoffrey Dommett,Guennadi Evmenenko,SonBinh T. Nguyen,Rodney S. Ruoff +7 more
TL;DR: Graphene oxide paper is reported, a free-standing carbon-based membrane material made by flow-directed assembly of individual graphene oxide sheets that outperforms many other paper-like materials in stiffness and strength.
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