Three new lanthanide metal–organic
frameworks IRHs-(1–3) supported by cyamelurate
linkers have been synthesized and structurally characterized. The
incorporation of numerous heteroatoms (N and O) into the pore walls
and the relatively small microchannels of these porous solids enhance
bonding force of the host–guest interactions, thus promoting
the adsorption of carbon dioxide (CO2) over methane (CH4). The nonpolar covalent bonds in methane also favor the less
uptake due to the hydrophilic walls of these frameworks. Grand canonical
Monte Carlo simulations were performed to determine the origin of
the adsorption. The density isocontour surfaces show that CO2 is mainly adsorbed on the walls composed of organic linkers and
around the metal sites, whereas no specific adsorption site is observed
for CH4, which indicates weak interactions between the
framework and the adsorbed gas. As expected, the simulations show
that CH4 is not observed around the metal center due to
the presence of H2O molecules. The excellent selectivity
of CO2/CH4 binary mixture was predicted by the
ideal adsorbed solution theory (IAST) via correlating
pure component adsorption isotherms with the Toth model. At 25 °C
and 1 bar, the CO2 and CH4 uptakes for IRH-3 were 2.7 and 0.07 mol/kg, respectively, and the IAST predicated
selectivity for CO2/CH4 (1:1) reached 27, which
is among the best value for MOF materials.
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