Abstract

Despite much intense investigation on the C₂ H₂ /CO₂ separation, the trade-off between the adsorption capacity and separation selectivity is still tricky. To overcome the dilemma, we have rationally synthesized an ultra-stable fluorinated hybrid porous material SIFSIX-Cu-TPA with the ith-d topology. Completely differing from the famous pillar-layer fluorinated materials, SIFSIX-Cu-TPA possesses a unique pillar-cage structure, in which the SiF₆ ^2- anions cross-link two adjacent metal nodes as pillars to stabilize the three-dimensional framework constructed by icosahedral and tetrahedral cages. As anticipated, SIFSIX-Cu-TPA has high BET surface area (1330 m² g^-1 ) as well as high C₂ H₂ uptake (185 cm³ g^-1 at 298 K and 1 bar). At the same time, due to the obvious difference in the adsorption performance of CO₂ and C₂ H₂ especially in the low pressure area, SIFSIX-Cu-TPA also exhibits an excellent C₂ H₂ /CO₂ separation performance (breakthrough time up to 68 min g^-1 at 298 K and 1 bar).