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Pore Size Matching for SF 6 /N 2 Separation in a Metal Azolate Framework | Synapse

April 17, 2026

Pore Size Matching for SF 6 /N 2 Separation in a Metal Azolate Framework

Key Points

The aim is to enhance the separation efficiency of SF6 from N2 using a specific metal azolate framework.
Investigated ultramicroporous metal azolate framework Zn3(atz)6
Conducted dynamic breakthrough experiments for separation efficiency
Measured uptake ratios and adsorption enthalpy of gases
Achieved high SF6/N2 uptake ratio of 20.2
Obtained moderate adsorption enthalpy of 31.3 kJ mol-1
Confirmed >99.9% recovery of high-purity SF6 from the gas mixture

Abstract

Efficient SF6/N2 separation is critical for environmental protection and industrial interests. Herein, the ultramicroporous metal azolate framework Zn3(atz)6 (namely, MAF-123-Zn, Hatz = 1H-1,2,3-triazole) featuring a suitable pore size was investigated, yielding high uptake ratio for SF6/N2 (20.2) and moderate adsorption enthalpy (31.3 kJ mol-1). Dynamic breakthrough experiments confirm the separation ability of high-purity SF6 (>99.9%) recovery from low-concentration SF6/N2 mixture and facile regeneration condition of N2 sweeping at room temperature.

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Cite This Study

Jiang et al. (Tue,) studied this question.

synapsesocial.com/papers/69e1cdc45cdc762e9d857048 https://doi.org/https://doi.org/10.1021/acs.inorgchem.6c01393