Ultrahigh water permeation with a high multivalent metal ion rejection rate through graphene oxide membranes

Graphene oxide (GO) membranes show exceptional molecular permeation properties and have gained tremendous attention in the area of wastewater treatment. However, they still suffer from some limitations, such as low water permeance when the ion rejection rate is at a satisfactory level and unstable p...

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Bibliographic Details
Published in:Journal of materials chemistry. A, Materials for energy and sustainability Materials for energy and sustainability, 2021-05, Vol.9 (17), p.1672-1677
Main Authors: Dai, Fangfang, Zhou, Feng, Chen, Junlang, Liang, Shanshan, Chen, Liang, Fang, Haiping
Format: Article
Language:English
Subjects:
Drying
Graphene
Membranes
Metal ions
Nanofiltration
Nanotechnology
Penetration
Rejection rate
Reluctance
Vacuum filtration
Wastewater treatment
Water purification
Water treatment
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Summary:Graphene oxide (GO) membranes show exceptional molecular permeation properties and have gained tremendous attention in the area of wastewater treatment. However, they still suffer from some limitations, such as low water permeance when the ion rejection rate is at a satisfactory level and unstable performance. Here, we developed a class of GO membranes from GO suspensions using vacuum filtration without drying treatment, which exhibit an ultrahigh water permeance of up to 75 ± 2 L m −2 h −1 bar −1 while still maintaining a high rejection rate of 99.9 ± 0.1% for multivalent metal ions. Importantly, of all state-of-the-art nanofiltration membranes, this is the most permeable membrane with a satisfactory level of the rejection rate for multivalent ions. Furthermore, the GO membranes exhibit outstanding stability over long-term operation. Our work provides a simple way to fabricate GO membranes with outstanding water purification performance. A simple fabrication program of graphene oxide (GO) membranes was developed in this work. The GO membranes exhibit ultrahigh water permeances together with high multivalent ion rejection rates.
ISSN:2050-7488
2050-7496
DOI:10.1039/d1ta00647a