Litcius/Paper detail

An artificial sodium-selective subnanochannel

Jun Lü, Gengping Jiang, Huacheng Zhang, Binbin Qian, Haijin Zhu, Qinfen Gu, Yan Yuan, Jefferson Zhe Liu, Benny D. Freeman, Lei Jiang, Huanting Wang

2023Science Advances95 citationsDOIOpen Access PDF

Abstract

Single-ion selectivity with high precision has long been pursued for fundamental bioinspired engineering and applications such as in ion separation and energy conversion. However, it remains a challenge to develop artificial ion channels to achieve single-ion selectivity comparable to their biological analogs, especially for high Na + /K + selectivity. Here, we report an artificial sodium channel by subnanoconfinement of 4′-aminobenzo-15-crown-5 ethers (15C5s) into ~6-Å-sized metal-organic framework subnanochannel (MOFSNC). The resulting 15C5-MOFSNC shows an unprecedented Na + /K + selectivity of tens to 10 2 and Na + /Li + selectivity of 10 3 under multicomponent permeation conditions, comparable to biological sodium channels. A co–ion-responsive single-file transport mechanism in 15C-MOFSNC is proposed for the preferential transport of Na + over K + due to the synergetic effects of size exclusion, charge selectivity, local hydrophobicity, and preferential binding with functional groups. This study provides an alternative strategy for developing potential single-ion selective channels and membranes for many applications.

Topics & Concepts

SelectivitySodiumChemistryMembraneIonIon channelPermeationIon transporterOrganic chemistryBiochemistryReceptorCatalysisAdvanced biosensing and bioanalysis techniquesMetal-Organic Frameworks: Synthesis and ApplicationsNanopore and Nanochannel Transport Studies