化学
微型多孔材料
金属有机骨架
连接器
分子
灵活性(工程)
分子动力学
锆
等结构
纳米技术
吸附
计算化学
有机化学
晶体结构
材料科学
统计
数学
计算机科学
操作系统
作者
Sujing Wang,Nertil Xhaferaj,Mohammad Wahiduzzaman,Kolade A. Oyekan,Xiao Li,Kevin Wei,Bin Zheng,Antoine Tissot,Jérôme Marrot,William Shepard,Charlotte Martineau,Yaroslav Filinchuk,Kui Tan,Guillaume Maurin,Christian Serre
摘要
Engineering the structural flexibility of metal–organic framework (MOF) materials for separation-related applications remains a great challenge. We present here a strategy of mixing rigid and soft linkers in a MOF structure to achieve tunable structural flexibility, as exemplified in a series of stable isostructural Zr-MOFs built with natural C4 linkers (fumaric acid, succinic acid, and malic acid). As shown by the differences in linker bond stretching and bending freedom, these MOFs display distinct responsive dynamics to external stimuli, namely, changes in temperature or guest molecule type. Comprehensive in situ characterizations reveal a clear correlation between linker character and MOF dynamic behavior, which leads to the discovery of a multivariate flexible MOF. It shows an optimal combination of both good working capacity and significantly enhanced selectivity for CO2/N2 separation. In principle, it provides a new avenue for potentially improving the ability of microporous MOFs to separate other gaseous and liquid mixtures.
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