From the journal:

Chemical Communications

Electrostatic potential matching guided ultra-microporous COF-300 for C2H2/CO2 separation with scale-up synthesis

Qianlong Wang,abc   Xu Yang, ORCID logo e   Hui Li,ab   Baoju Li, ORCID logo *ab   Bingwen Li,*d   Xinfang Wangd  and  Zhe Wang ORCID logo *abc  

* Corresponding authors

a School of Chemistry and Life Science, Changchun University of Technology, Changchun, P. R. China
E-mail: libaoju@ccut.edu.cn, wzccut@126.com

b Key Laboratory of Advanced Functional Polymer Membrane Materials of Jilin Province, Changchun, P. R. China

c Advanced Institute of Materials Science, Changchun University of Technology, Changchun 130012, P. R. China

d Shandong Key Laboratory of Biophysics, Institute of Biophysics, College of Chemistry and Chemical Engineering, Dezhou University, Dezhou 253023, P. R. China
E-mail: libingwen@dzu.edu.cn

e School of Chemistry and Environmental Engineering, Hubei Minzu University, Enshi, P. R. China

Abstract

We achieved gram-scale synthesis of ultra-microporous COF-300 via a one-pot method and demonstrated its potential for C2H2/CO2 separation guided by electrostatic potential matching principles. Gas adsorption simulations and experiments further corroborated the selective adsorption separation of C2H2/CO2 by COF-300. And, dynamic breakthrough curves validated the separation capability of COF-300 as an adsorbent, while density functional theory (DFT) calculations ultimately revealed the interaction mechanisms between the COF-300 adsorbent and gas molecules.

Graphical abstract: Electrostatic potential matching guided ultra-microporous COF-300 for C2H2/CO2 separation with scale-up synthesis

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Article information

DOI
https://doi.org/10.1039/D5CC03278D
Article type
Communication
Submitted
10 Jun 2025
Accepted
11 Aug 2025
First published
12 Aug 2025

Chem. Commun., 2025, Advance Article

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Electrostatic potential matching guided ultra-microporous COF-300 for C2H2/CO2 separation with scale-up synthesis

Q. Wang, X. Yang, H. Li, B. Li, B. Li, X. Wang and Z. Wang, Chem. Commun., 2025, Advance Article , DOI: 10.1039/D5CC03278D

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