A Zn-Cluster-Based MOF for Efficient Separation of C3H8/C2H6/CH4

Chem & Bio Engineering Pub Date : 2024-03-08 DOI:10.1021/cbe.3c0009210.1021/cbe.3c00092
Yue Wang, Yujie Lai, Jieyu Liu, Ziwen Fan, Xueheng Quan, Tong Zhang, Changhong Wang*, Cong Xu, Qi Chen and Zheng Niu*, 
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Abstract

The separation and purification of methane from natural gas are crucial chemical processes. Herein, we report a Zn-cluster-based MOF (SDMOF-3), enabling the efficient separation of mixed low-carbon alkanes. The unique Zn clusters in the MOF enhance its interaction with hydrogen atoms in alkanes, thus realizing the separation of saturated light alkanes. Single-component gas adsorption tests revealed that SDMOF-3 exhibits significantly higher affinity for C3H8 compared to CH4 and C2H6 at 298 K. Dynamic column penetration experiments with mixed gases demonstrated the excellent separation performance of SDMOF-3 for separating C3H8 and C2H6 from CH4.

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用于高效分离 C3H8/C2H6/CH4 的基于 Zn-Cluster 的 MOF
从天然气中分离和提纯甲烷是至关重要的化学过程。在此,我们报告了一种基于 Zn 簇的 MOF(SDMOF-3),可实现混合低碳烷烃的高效分离。MOF 中独特的 Zn 团簇增强了与烷烃中氢原子的相互作用,从而实现了饱和轻质烷烃的分离。单组分气体吸附实验表明,在 298 K 下,SDMOF-3 对 C3H8 的亲和力明显高于 CH4 和 C2H6。
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Chem & Bio Engineering
Chem & Bio Engineering
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Issue Publication Information Issue Editorial Masthead Advanced Separation Materials and Processes Advanced Separation Materials and Processes. Issue Publication Information
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