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Intercrystalline Channels at Subnanometer Scale for Precise Molecular Nanofiltration

Dongchen Shi, He Li, Xin Yu, Zhaoqiang Zhang, Yi Yuan, Weidong Fan, Hongye Yuan, Yunpan Ying, Hao Yang, Chuning Shang, Joseph Imbrogno, Dan Zhao

2023Journal of the American Chemical Society26 citationsDOI

Abstract

Membrane-based technologies can provide cost-effective and energy-efficient methods for various separation processes. The key goal is to develop materials with uniform, tunable, and well-defined subnanometer-scale channels. Suitable membrane materials should have high selectivity and permeance and can be manufactured in a robust and scalable fashion. Here, we report the construction of sub-1 nm intercrystalline channels with such characteristics and elucidate their transport properties. These channels are formed by assembling 3D aluminum formate crystals during the amorphous-to-crystalline transformation process. By controlling the transformation time, the channel size can be tuned from the macroscopic scale to nanometer scale. The resulting membranes exhibit tailored selectivity and permeance, with molecular weight cutoffs ranging from around 300 Da to approximately 650 Da, and ethanol permeance ranging from 0.8 to 22.0 L m –2 h –1 bar –1 . We further show that liquid flow through these channels changes from viscosity-dominated continuum flow to subcontinuum flow, which can be described by a modified Hagen–Poiseuille model. Our strategy provides a new scalable platform for applications that commonly exploit nanoscale mass transport.

Topics & Concepts

PermeanceChemistryHagen–Poiseuille equationNanotechnologyNanometreMembraneNanofiltrationAmorphous solidNanoscopic scaleChemical physicsFlow (mathematics)Chemical engineeringMechanicsMaterials sciencePermeationCrystallographyBiochemistryEngineeringPhysicsMembrane Separation TechnologiesMembrane Separation and Gas TransportNanopore and Nanochannel Transport Studies
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