摘要
Reduced graphene oxide(rGO)membranes have been intensively evaluated for desalination and ionic sieving applications,benefiting from their stable and well-confined interlayer channels.However,rGO membranes generally suffer from low permeability due to the high transport resistance resulting from the narrowed two-dimensional(2D)channels.Although high permeability can be realized by reducing membrane thickness,membrane selectivity normally declines because of the formation of nonselective defects,in particular pinholes.In this study,we demonstrate that the non-selective defects in ultrathin rGO membranes can be effectively minimised by a facile posttreatment via surfacedeposition of graphene quantum dots(GQDs).The resultant GQDs/rGO membranes obtained a good trade-off between water permeance(14 L·m^(-2)·h^(-1).MPa^(-1))and NaCl rejection(91%).This work provides new insights into the design of high quality ultrathin 2D laminar membranes for desalination,molecular/ionic sieving and other separation applications.
基金
supported by the Australian Government Depart-ment of Industry,Innovation,and Science through the Australia-China Science and Research Fund(ACSRF48154)
collaboration with the Australia Research Council Research Hub for Energy-efficient Separation(IH 170100009).
