Issue 18, 2016

Porous graphene-based membranes for water purification from metal ions at low differential pressures

Abstract

A new generation of membranes for water purification based on weakly oxidized and nanoporous few-layer graphene is here introduced. These membranes dramatically decrease the high energy requirements of water purification by reverse osmosis. They combine the advantages of porous and non-oxidized single-layer graphene, offering energy-efficient water filtration at relatively low differential pressures, and highly oxidized graphene oxide, exhibiting high performance in terms of impurity adsorption. In the reported fabrication process, leaks between juxtaposed few-layer graphene flakes are sealed by thermally annealed colloidal silica, in a treatment that precedes the opening of (sub)nanometre-size pores in graphene. This process, explored for the first time in this work, results in nanoporous graphene flakes that are water-tight at the edges without occluding the (sub)nanopores. With this method, removal of impurities from water occurs through a combination of size-based pore rejection and pore-edge adsorption. Thinness of graphene flakes allows these membranes to achieve water purification from metal ions in concentrations of few parts-per-million at differential pressures as low as 30 kPa, outperforming existing graphene or graphene oxide purification systems with comparable flow rates.

Graphical abstract: Porous graphene-based membranes for water purification from metal ions at low differential pressures

Article information

Article type
Paper
Submitted
30 Dec 2015
Accepted
15 Mar 2016
First published
21 Apr 2016

Nanoscale, 2016,8, 9563-9571

Porous graphene-based membranes for water purification from metal ions at low differential pressures

J. Park, P. Bazylewski and G. Fanchini, Nanoscale, 2016, 8, 9563 DOI: 10.1039/C5NR09278G

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