DOI: 10.1002/smll.202409215 ISSN: 1613-6810

Construction of Multiple Nonpolar SF6 Nano‐Traps by Highly Stable Pyrazole‐Based MOFs for SF6 Recovery

Qichen Fan, Jinze Yao, Siyao Zhao, Xingbei Wu, Jiajin Huang, Haoyuan Luo, Qibin Xia

Abstract

Sulfur hexafluoride (SF6), widely used in electric power systems, is one of the most potent greenhouse gases. Efficient separation of SF6/N2 by adsorptive separation technology based on porous materials is of great significance in the industry yet remains a daunting challenge. Herein, a novel strategy is introduced to construct unique pore channels with multiple SF6 nano‐traps by precisely selecting bipyrazole ligands to design the nonpolar surface of microporous metal−organic frameworks (MOFs), which significantly enhances the material's affinity for SF6. A series of ultra‐stable bipyrazole‐based MOFs, M(BPZ) (M═Co, Ni, Zn), are synthesized and investigated. Among these three materials, Co(BPZ) and Zn(BPZ) show excellent SF6 uptakes of 2.47 and 2.39 mmol g−1 at 298 K and 0.1 bar while Co(BPZ) exhibits the highest SF6/N2 (10/90, v/v) IAST selectivity of 748. Breakthrough experiments reveal that SF6/N2 mixtures can be efficiently separated by Co(BPZ) with a high SF6 (≥99.5 %) productivity of 46.1 L kg−1. Theoretical calculations suggest that SF6 preferably adsorbs in the channels through multiple S−F···π (pyrazole rings) van der Waals interactions. This work provides a straightforward approach for exploring adsorbents in efficient SF6/N2 separation.

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