二维金属有机框架中用于乙炔/乙烯分离的层间和层内空间同时控制

Simultaneous interlayer and intralayer space control in two-dimensional metal-organic frameworks for acetylene/ethylene separation.

作者信息

Shen Jin, He Xin, Ke Tian, Krishna Rajamani, van Baten Jasper M, Chen Rundao, Bao Zongbi, Xing Huabin, Dincǎ Mircea, Zhang Zhiguo, Yang Qiwei, Ren Qilong

机构信息

Key Laboratory of Biomass Chemical Engineering of Ministry of Education, College of Chemical and Biological Engineering, Zhejiang University, 310027, Hangzhou, China.

Department of Chemistry, Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, MA, 02139, USA.

出版信息

Nat Commun. 2020 Dec 7;11(1):6259. doi: 10.1038/s41467-020-20101-7.

DOI:10.1038/s41467-020-20101-7

PMID:33288766

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7721749/

Abstract

Three-dimensional metal-organic frameworks (MOFs) are cutting-edge materials in the adsorptive removal of trace gases due to the availability of abundant pores with specific chemistry. However, the development of ideal adsorbents combining high adsorption capacity with high selectivity and stability remains challenging. Here we demonstrate a strategy to design adsorbents that utilizes the tunability of interlayer and intralayer space of two-dimensional fluorinated MOFs for capturing acetylene from ethylene. Validated by X-ray diffraction and modeling, a systematic variation of linker atom oxidation state enables fine regulation of layer stacking pattern and linker conformation, which affords a strong interlayer trapping of molecules along with cooperative intralayer binding. The resultant robust materials (ZUL-100 and ZUL-200) exhibit benchmark capacity in the pressure range of 0.001-0.05 bar with high selectivity. Their efficiency in acetylene/ethylene separation is confirmed by breakthrough experiments, giving excellent ethylene productivities (121 mmol/g from 1/99 mixture, 99.9999%), even when cycled under moist conditions.

摘要

三维金属有机框架材料（MOFs）因其具有大量具有特定化学性质的孔隙，在痕量气体的吸附去除方面是前沿材料。然而，开发兼具高吸附容量、高选择性和稳定性的理想吸附剂仍然具有挑战性。在此，我们展示了一种设计吸附剂的策略，该策略利用二维氟化MOFs的层间和层内空间的可调性来从乙烯中捕获乙炔。通过X射线衍射和建模验证，连接原子氧化态的系统变化能够精细调节层堆积模式和连接体构象，这提供了分子的强层间捕获以及协同的层内结合。所得的坚固材料（ZUL-100和ZUL-200）在0.001-0.05巴的压力范围内表现出基准容量且具有高选择性。它们在乙炔/乙烯分离中的效率通过突破实验得到证实，即使在潮湿条件下循环，也能实现优异的乙烯生产率（来自1/99混合物的121 mmol/g，纯度为99.9999%）。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2f9e/7721749/625d2660a143/41467_2020_20101_Fig1_HTML.jpg

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二维金属有机框架中用于乙炔/乙烯分离的层间和层内空间同时控制

Simultaneous interlayer and intralayer space control in two-dimensional metal-organic frameworks for acetylene/ethylene separation.

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