What question did this study set out to answer?

The aim is to enhance the separation efficiency of SF6 from N2 using a specific metal azolate framework.

April 17, 2026

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

Puntos clave

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

Resumen

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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Discussion

Authors

Xue Jiang

Tao Zhang

Rong-Bo Gao

Xidian University

Journals

Inorganic Chemistry

Actions

Institutions

Northwestern Polytechnical University

Xidian University

Ministry of Industry and Information Technology

References and Citations

Connected Papers

Building similarity graph...

Analyzing shared references across papers

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

Puntos clave

Resumen

Citation Network

Connected Papers

Discussion

Authors

Journals

Actions

Institutions

References and Citations

Citation Network

Connected Papers

Discussion

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