AI Article Synopsis
- Metal-organic frameworks (MOFs) have flexible pore sizes and structures that make them promising for applications like carbon capture.
- The text discusses three different MOF isomers made from cadmium, terephthalic acid, and a specific tetrazine, highlighting their variations in structure and pore size.
- Among these, one isomer demonstrated a strong ability to selectively absorb carbon monoxide (CO) due to its unique molecular sieving properties, showcasing the potential of framework isomerization for optimizing MOF performance.
Article Abstract
Metal-organic frameworks (MOFs) or porous coordination polymers (PCPs) with tunable pore sizes, shapes and functionalities have excellent prospects in many applications, such as carbon capture. Molecular sieving can usually enable very high CO adsorption selectivity but has rarely been achieved, because it is difficult to precisely control the pore size in the range of 3-4 Å. We report here three MOF isomers built from Cd, terephthalic acid and 3,6-di(pyridin-4-yl)-1,2,4,5-tetrazine with the same stoichiometric ratio, among which 1 and 2 are framework-catenation isomers and 2 and 3 are framework-topological isomers. 1 contains 2-fold interpenetrated networks (topology of pcu) and 1D ultra-micropores and shows highly selective adsorption of CO over N and CH, which is mainly ascribed to the molecular sieving effect of the framework. 2 contains a pcu network with 3D interconnected micropores, and 3 contains a kag network with much larger pores of 15 Å. Framework isomerization, in this case, was shown to be a feasible way of tuning the pore size of a MOF for selective CO adsorption. The effects of hydrothermal reaction conditions and additives on the structures and the formation of the MOF isomers were also studied.
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