Tunable Gas Admission via a “Molecular Trapdoor” Mechanism in a Flexible Cationic Metal–Organic Framework Featuring 1D Channels

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Detail(s)

Original languageEnglish
Article number2400064
Journal / PublicationSmall
Volume20
Issue number27
Online published26 Mar 2024
Publication statusPublished - 4 Jul 2024

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Abstract

Achieving high gas selectivity is challenging when dealing with gas pairs of similar size and physiochemical properties. The “molecular trapdoor” mechanism discovered in zeolites holds promise for highly selective gas adsorption separation but faces limitations like constrained pore volume and slow adsorption kinetics. To address these challenges, for the first time, a flexible metal–organic framework (MOF) featuring 1D channels and functioning as a “molecular trapdoor” material is intoduced. Extra-framework anions act as “gate-keeping” groups at the narrowest points of channels, permitting gas admissions via gate opening induced by thermal/pressure stimuli and guest interactions. Different guest molecules induce varied energy barriers for anion movement, enabling gas separation based on distinct threshold temperatures for gas admission. The flexible framework of Pytpy MOFs, featuring swelling structure with rotatable pyridine rings, facilitates faster gas adsorption than zeolite. Analyzing anion properties of Pytpy MOFs reveals a guiding principle for selecting anions to tailor threshold gas admission. This study not only overcomes the kinetic limitations related to gas admission in the “molecular trapdoor” zeolites but also underscores the potential of developing MOFs as molecular trapdoor adsorbents, providing valuable insights for designing ionic MOFs tailored to diverse gas separation applications. © 2024 The Authors. Small published by Wiley-VCH GmbH.

Research Area(s)

  • exclusive admission, gate-keeping groups, molecular trapdoor

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