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Electrostatic-induced ion-confined partitioning in graphene nanolaminate membrane for breaking anion–cation co-transport to enhance desalination

Haiguang Zhang, Jiajian Xing, Gaoliang Wei, Xu Wang, Shuo Chen, Xie Quan

2024Nature Communications86 citationsDOIOpen Access PDF

Abstract

Abstract Constructing nanolaminate membranes made of two-dimensional graphene oxide nanosheets has gained enormous interest in recent decades. However, a key challenge facing current graphene-based membranes is their poor rejection for monovalent salts due to the swelling-induced weak nanoconfinement and the transmembrane co-transport of anions and cations. Herein, we propose a strategy of electrostatic-induced ion-confined partitioning in a reduced graphene oxide membrane for breaking the correlation of anions and cations to suppress anion-cation co-transport, substantially improving the desalination performance. The membrane demonstrates a rejection of 95.5% for NaCl with a water permeance of 48.6 L m −2 h −1 bar −1 in pressure-driven process, and it also exhibits a salt rejection of 99.7% and a water flux of 47.0 L m −2 h −1 under osmosis-driven condition, outperforming the performance of reported graphene-based membranes. The simulation and calculation results unveil that the strong electrostatic attraction of membrane forces the hydrated Na + to undergo dehydration and be exclusively confined in the nanochannels, strengthening the intra-nanochannel anion/cation partitioning, which refrains from the dynamical anion-cation correlations and thereby prevents anions and cations from co-transporting through the membrane. This study provides guidance for designing advanced desalination membranes and inspires the future development of membrane-based separation technologies.

Topics & Concepts

DesalinationGrapheneIonIon transporterMembraneMaterials scienceChemical engineeringNanotechnologyChemical physicsChemistryOrganic chemistryBiochemistryEngineeringMembrane Separation TechnologiesNanopore and Nanochannel Transport StudiesMembrane-based Ion Separation Techniques
Electrostatic-induced ion-confined partitioning in graphene nanolaminate membrane for breaking anion–cation co-transport to enhance desalination | Litcius