Abstract
Membrane technologies are playing an ever-important role in the field of water treatment since water reuse and desalination were put in place as alternative water resources to alleviate the global water crisis. Recently, membranes are becoming more versatile and powerful with upgraded electroconductive capabilities, owing to the development of novel materials (e.g., carbon nanotubes and graphene) with dual properties for assembling into membranes and exerting electrochemical activities. Novel nanomaterial-based electrically responsive membranes have been employed with promising results for mitigating membrane fouling, enhancing membrane separation performance and self-cleaning ability, controlling membrane wettability, etc. In this article, recent progress in novel-nanomaterial-based electrically responsive membranes for application in the field of water purification are provided. Thereafter, several critical drawbacks and future outlooks are discussed.
Highlights
Wastewater reuse and seawater desalination are key strategies for addressing global water shortage [1]
Reproduced with permFiigsusiroen11f.ro(am) P[e2r8m].eate flux of conventional air-gap membrane distillation (AGMD) and an AGMD equipped with reduced graphene oxide (rGO)
Current module designs do not have the appropriate space to accommodate the counter electrode. This perspective paper provides an overview of the recent advances in the field of electrically responsive membranes (ERMs) and discusses the challenges to be addressed in order to realize more practical ERMs
Summary
Wastewater reuse and seawater desalination are key strategies for addressing global water shortage [1]. Membranes 2021, 11, 5 to CNTs, the hydrophobic nanochannel walls formed using graphene derivatives can provide a low friction pathway for water transport [44]. When it comes to electrical conductivity, pristine graphene and MXene can theoretically reach up to 106 and 104 S/cm, respectively [8,45]. Similar to CNTs, the hydrophobic nanochannel walls formed using graphene derivatives can provide a low friction pathway for water transport [44] We would like to provide a discussion on the process made in each application of ERMs
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