Vertical covalent organic framework interlayer channels enable ultraselective molecular separations

Songjun Fang; Yu Liao; Jiahao Tang; Mingxiu Tang; Fuxin Zheng; Zhenxiang Pan; Yingnan Feng; Gang Han

doi:10.1126/sciadv.aeb0929

Vertical covalent organic framework interlayer channels enable ultraselective molecular separations

Songjun Fang
, Yu Liao
, Jiahao Tang
, Mingxiu Tang
, Fuxin Zheng
, Zhenxiang Pan
, Yingnan Feng
, Gang Han

Research output: Contribution to journal › Article › peer-review

Abstract

This work addresses the long-standing challenge of insufficient permselectivity in two-dimensional (2D) covalent organic framework (COF) membranes by developing a generalizable and potentially scalable self-templating interfacial assembly method to synthesize vertically aligned 2D COF polycrystalline nanofilms. Experiments and molecular simulations reveal that molecular amphiphilicity-driven spontaneous confinement and directional alignment of framework-building units at the organic/aqueous interface instigate the vertical growth of COF monolayers. The superior sieving ability of sub-4 angstrom interlayer nanochannels enables vertically aligned COF membranes to efficiently intercept salt ions, electrically neutral small molecules, and hazardous chemicals, outperforming conventional COF membranes. The implemented strategy can be extended to other building blocks and framework topologies, opening up avenues for fine-tuning the pore structure of 2D COF membranes.

Original language	English
Pages (from-to)	eaeb0929
Journal	Science advances
Volume	11
Issue number	51
DOIs	https://doi.org/10.1126/sciadv.aeb0929
Publication status	Published - 19 Dec 2025
Externally published	Yes

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title = "Vertical covalent organic framework interlayer channels enable ultraselective molecular separations",

abstract = "This work addresses the long-standing challenge of insufficient permselectivity in two-dimensional (2D) covalent organic framework (COF) membranes by developing a generalizable and potentially scalable self-templating interfacial assembly method to synthesize vertically aligned 2D COF polycrystalline nanofilms. Experiments and molecular simulations reveal that molecular amphiphilicity-driven spontaneous confinement and directional alignment of framework-building units at the organic/aqueous interface instigate the vertical growth of COF monolayers. The superior sieving ability of sub-4 angstrom interlayer nanochannels enables vertically aligned COF membranes to efficiently intercept salt ions, electrically neutral small molecules, and hazardous chemicals, outperforming conventional COF membranes. The implemented strategy can be extended to other building blocks and framework topologies, opening up avenues for fine-tuning the pore structure of 2D COF membranes.",

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T1 - Vertical covalent organic framework interlayer channels enable ultraselective molecular separations

AU - Fang, Songjun

AU - Liao, Yu

AU - Tang, Jiahao

AU - Tang, Mingxiu

AU - Zheng, Fuxin

AU - Pan, Zhenxiang

AU - Feng, Yingnan

AU - Han, Gang

PY - 2025/12/19

Y1 - 2025/12/19

N2 - This work addresses the long-standing challenge of insufficient permselectivity in two-dimensional (2D) covalent organic framework (COF) membranes by developing a generalizable and potentially scalable self-templating interfacial assembly method to synthesize vertically aligned 2D COF polycrystalline nanofilms. Experiments and molecular simulations reveal that molecular amphiphilicity-driven spontaneous confinement and directional alignment of framework-building units at the organic/aqueous interface instigate the vertical growth of COF monolayers. The superior sieving ability of sub-4 angstrom interlayer nanochannels enables vertically aligned COF membranes to efficiently intercept salt ions, electrically neutral small molecules, and hazardous chemicals, outperforming conventional COF membranes. The implemented strategy can be extended to other building blocks and framework topologies, opening up avenues for fine-tuning the pore structure of 2D COF membranes.

AB - This work addresses the long-standing challenge of insufficient permselectivity in two-dimensional (2D) covalent organic framework (COF) membranes by developing a generalizable and potentially scalable self-templating interfacial assembly method to synthesize vertically aligned 2D COF polycrystalline nanofilms. Experiments and molecular simulations reveal that molecular amphiphilicity-driven spontaneous confinement and directional alignment of framework-building units at the organic/aqueous interface instigate the vertical growth of COF monolayers. The superior sieving ability of sub-4 angstrom interlayer nanochannels enables vertically aligned COF membranes to efficiently intercept salt ions, electrically neutral small molecules, and hazardous chemicals, outperforming conventional COF membranes. The implemented strategy can be extended to other building blocks and framework topologies, opening up avenues for fine-tuning the pore structure of 2D COF membranes.

UR - https://www.scopus.com/pages/publications/105025600155

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DO - 10.1126/sciadv.aeb0929

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SP - eaeb0929

JO - Science advances

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ER -

Vertical covalent organic framework interlayer channels enable ultraselective molecular separations

Abstract

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