Highly Selective Supported Graphene Oxide Membranes for Water-Ethanol Separation

Y Shin and MFN Taufique and R Devanathan and EC Cutsforth and J Lee and W Liu and LS Fifield and DW Gotthold, SCIENTIFIC REPORTS, 9, 2251 (2019).

DOI: 10.1038/s41598-019-38485-y

A polyethersulfone (PES)-supported graphene oxide (GO) membrane has been developed by a simple casting approach. This stable membrane is applied for ethanol/water separation at different temperatures. The 5.0 mu m thick GO film coated on PES support membrane showed a long-term stability over a testing period of one month and excellent water/ethanol selectivity at elevated temperatures. The water/ethanol selectivity is dependent on ethanol weight percentage in water/ethanol feed mixtures and on operating temperature. The water/ethanol selectivity was enhanced with an increase of ethanol weight percentage in water/ethanol mixtures, from below 100 at RT to close to 874 at a 90 degrees C for 90% ethanol/10% water mixture. Molecular dynamics simulation of water- ethanol mixtures in graphene bilayers, that are considered to play a key role in transport, revealed that molecular transport is negligible for layer spacing below 1 nm. The differences in the diffusion of ethanol and water in the bilayer are not consistent with the large selectivity value experimentally observed. The entry of water and ethanol into the interlayer space may be the crucial step controlling the selectivity.

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