金属有机框架中精确的孔隙空间分区与高密度氢键受体相结合用于高效乙炔存储和分离

Precise Pore Space Partitions Combined with High-Density Hydrogen-Bonding Acceptors within Metal-Organic Frameworks for Highly Efficient Acetylene Storage and Separation.

作者信息

Xue Ying-Ying, Bai Xiao-Ying, Zhang Jing, Wang Ying, Li Shu-Ni, Jiang Yu-Cheng, Hu Man-Cheng, Zhai Quan-Guo

机构信息

Key Laboratory of Applied Surface and Colloid Chemistry, Ministry of Education, Key Laboratory of Macromolecular Science of Shaanxi Province, School of Chemistry & Chemical Engineering, Shaanxi Normal University, Xi'an, Shaanxi, 710062, China.

出版信息

Angew Chem Int Ed Engl. 2021 Apr 26;60(18):10122-10128. doi: 10.1002/anie.202015861. Epub 2021 Mar 22.

DOI:10.1002/anie.202015861

PMID:33533093

Abstract

The high storage capacity versus high selectivity trade-off barrier presents a daunting challenge to practical application as an acetylene (C H ) adsorbent. A structure-performance relationship screening for sixty-two high-performance metal-organic framework adsorbents reveals that a moderate pore size distribution around 5.0-7.5 Å is critical to fulfill this task. A precise pore space partition approach was involved to partition 1D hexagonal channels of typical MIL-88 architecture into finite segments with pore sizes varying from 4.5 Å (SNNU-26) to 6.4 Å (SNNU-27), 7.1 Å (SNNU-28), and 8.1 Å (SNNU-29). Coupled with bare tetrazole N sites (6 or 12 bare N sites within one cage) as high-density H-bonding acceptors for C H , the target MOFs offer a good combination of high C H /CO adsorption selectivity and high C H uptake capacity in addition to good stability. The optimized SNNU-27-Fe material demonstrates a C H uptake of 182.4 cm g and an extraordinary C H /CO dynamic breakthrough time up to 91 min g under ambient conditions.

摘要

作为乙炔（C₂H₂）吸附剂，高储存容量与高选择性之间的权衡障碍给实际应用带来了严峻挑战。对62种高性能金属有机骨架吸附剂进行的结构-性能关系筛选表明，5.0-7.5 Å左右的适度孔径分布对于完成这项任务至关重要。采用精确的孔空间划分方法，将典型MIL-88结构的一维六边形通道划分为有限段，孔径从4.5 Å（SNNU-26）变化到6.4 Å（SNNU-27）、7.1 Å（SNNU-28）和8.1 Å（SNNU-29）。结合裸露的四唑N位点（一个笼内有6个或12个裸露的N位点）作为C₂H₂的高密度氢键受体，目标金属有机骨架除了具有良好的稳定性外，还提供了高C₂H₂/CO吸附选择性和高C₂H₂吸附容量的良好组合。优化后的SNNU-27-Fe材料在环境条件下表现出182.4 cm³ g⁻¹的C₂H₂吸附量和高达91 min g⁻¹的非凡C₂H₂/CO动态突破时间。

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金属有机框架中精确的孔隙空间分区与高密度氢键受体相结合用于高效乙炔存储和分离

Precise Pore Space Partitions Combined with High-Density Hydrogen-Bonding Acceptors within Metal-Organic Frameworks for Highly Efficient Acetylene Storage and Separation.

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