Stabilizing the Extrinsic Porosity in Metal-Organic Cages-Based Supramolecular Framework by In Situ Catalytic Polymerization 被引量：7

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摘要 Porous supramolecular frameworks based on metal-organic cages(MOCs)usually have poor structural stability after activation.This issue narrows the scope of their potential applications,particularly for the inclusion of guest molecules that demand high porosity.Herein,the authors have reported the stabilization of a mesoporous zirconium MOC-based supramolecular framework with an in situ catalytic polymerization strategy.Due to the passivation effect imparted by this strategy,the introduced polymer is primarily distributed on the surface of the crystals,which results in the hybrid material retaining its crystallinity and permanent porosity.A preliminary application of this type of stabilized mesoporous supramolecular framework shows that among MOC-based supramolecular frameworks,it has the highest high-pressure methane uptake.Such a facile strategy may provide a general way to stabilize fragile porous materials and facilitate exploration of their potential applications.

作者 Guoliang Liu Mi Zhou Kongzhao Su Ravichandar Babarao Daqiang Yuan Maochun Hong

机构地区 State Key Laboratory of Structural Chemistry University of the Chinese Academy of Sciences Commonwealth Scientific and Industrial Research Organization(CSIRO)Manufacturing School of Science

出处《CCS Chemistry》 CAS 2021年第5期1382-1390,共9页 中国化学会会刊（英文）

基金 This study was financially supported by the National Nature Science Foundation of China(nos.21771177 and 51603206) the Strategic Priority Research Program of CAS(no.XDB20000000) the Key Research Program of Frontier Sciences,CAS(no.QYZDB-SSW-SLH019).

关键词 in situ catalytic polymerization metal-organic cages supramolecular frameworks framework stabilization methane uptake

分类号 O643.3 [理学—物理化学]

作者简介 Guoliang Liu,contributed equally to this work;Mi Zhou,contributed equally to this work;Corresponding author:Daqiang Yuan,ydq@fjirsm.ac.cn。

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Stabilizing the Extrinsic Porosity in Metal-Organic Cages-Based Supramolecular Framework by In Situ Catalytic Polymerization 被引量：7

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