Construction of a Polyhedral Metal-Organic Framework via a Flexible Octacarboxylate Ligand for Gas Adsorption and Separation

A flexible octacarboxylate ligand, tetrakis[(3,5-dicarboxyphenyl)oxamethyl]methane (H8X), has been used to construct a highly porous metal-organic framework (In2X)-(Me2NH2)(2)(DMF)(9)(H2O)(5) (1), which is comprised of octahedral and cuboctahedral cages and shows a rare (4,8)-connected scu topology. Gas adsorption studies of N-2, H-2 on the actived 1 at 77 K reveal a Langmuir surface area of 1707 m(2) g(-1), a BET surface area of 1555 m(2) g(-1), a total pore volume of 0.62 cm(3) g(-1), and a H-2 uptake of 1.49 wt % at 1 bar and 3.05 wt % at 16 bar. CO2, CH4, and N-2 adsorption studies at 195, 273, 285, and 298 K and also ideal adsorbed solution theory (IAST) calculations demonstrate that 1 has high selectivites of CO2 over CH4 and N-2. The resulting framework represents a MOF with the highest gas uptakes and gas selectivities (CO2 over CH4 and N-2) constructed by flexible ligands.