Selective nitrogen adsorption via backbonding in a metal–organic framework with exposed vanadium sites

Industrial processes prominently feature π-acidic gases, and an adsorbent capable of selectively interacting with these molecules could enable important chemical separations 1 – 4 . Biological systems use accessible, reducing metal centres to bind and activate weakly π-acidic species, such as N 2 , through backbonding interactions 5 – 7 , and incorporating analogous moieties into a porous material should give rise to a similar adsorption mechanism for these gaseous substrates 8 . Here, we report a metal–organic framework featuring exposed vanadium( ii ) centres capable of back-donating electron density to weak π acids to successfully target π acidity for separation applications. This adsorption mechanism, together with a high concentration of available adsorption sites, results in record N 2 capacities and selectivities for the removal of N 2 from mixtures with CH 4 , while further enabling olefin/paraffin separations at elevated temperatures. Ultimately, incorporating such π-basic metal centres into porous materials offers a handle for capturing and activating key molecular species within next-generation adsorbents.