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Advancing electrodeionization with conductive ionomer binders that immobilize ion-exchange resin particles into porous wafer substrates

Varada Menon Palakkal, Lauren Valentino, Qi Lei, Subarna Kole, Yupo J. Lin, Christopher G. Arges

2020npj Clean Water57 citationsDOIOpen Access PDF

Abstract

Abstract Electrodeionization (EDI) is an electrically driven separations technology that employs ion-exchange membranes and resin particles. Deionization occurs under the influence of an applied electric field, facilitating continuous regeneration of the resins and supplementing ionic conductivity. While EDI is commercially used for ultrapure water production, material innovation is required for improving desalination performance and energy efficiency for treating alternative water supplies. This work reports a new class of ion-exchange resin-wafers (RWs) fabricated with ion-conductive binders that exhibit exceptional ionic conductivities—a 3–5-fold improvement over conventional RWs that contain a non-ionic polyethylene binder. Incorporation into an EDI stack (RW-EDI) resulted in an increased desalination rate and reduced energy expenditure compared to the conventional RWs. The water-splitting phenomenon was also investigated in the RW in an external experimental setup in this work. Overall, this work demonstrates that ohmic resistances can be substantially curtailed with ionomer binder RWs at dilute salt concentrations.

Topics & Concepts

DesalinationUltrapure waterMaterials scienceIon-exchange resinChemical engineeringIonomerMembraneWaferComposite materialChemistryNanotechnologyInorganic chemistryPolymerBiochemistryEngineeringCopolymerMembrane-based Ion Separation TechniquesMembrane Separation TechnologiesFuel Cells and Related Materials
Advancing electrodeionization with conductive ionomer binders that immobilize ion-exchange resin particles into porous wafer substrates | Litcius