High SF6/N2 selectivity in a hydrothermally stable zirconium-based metal–organic framework

•UiO-66-Zr exhibits the highest SF6/N2 selectivity values ever reported.•Breakthrough calculations for mixture conditions demonstrate that UiO-66-Zr can effectively separate SF6/N2 mixtures.•UiO-66-Zr maintains the adsorption capacity even after one month of storage under ambient conditions.

A hydrothermally stable, zirconium-based metal–organic framework called UiO-66-Zr has been studied for its ability to separate SF6 from SF6/N2 mixtures. The ideal adsorbed solution theory (IAST)-predicted selectivities based on single-component isotherms and the dynamic breakthrough calculations for mixture conditions demonstrate that UiO-66-Zr can effectively separate SF6/N2 mixtures. Remarkably, UiO-66-Zr exhibits the highest SF6/N2 selectivity values ever reported. In comparison with zeolite-13X, which is a benchmark adsorbent, UiO-66-Zr clearly shows enhanced separation performance, especially for the diluted SF6 concentration. Moreover, UiO-66-Zr maintains its adsorption capacity even after one month of storage under ambient conditions. UiO-66-Zr may be considered as a promising adsorbent for SF6/N2 separations.

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