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Chem Sci. 2018 Oct 12;10(4):1098-1106. doi: 10.1039/c8sc03622e. eCollection 2019 Jan 28.

Host-guest selectivity in a series of isoreticular metal-organic frameworks: observation of acetylene-to-alkyne and carbon dioxide-to-amide interactions.

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School of Chemistry , University of Manchester , Oxford Road , Manchester , M13 9PL , UK . Email: ; Email:
School of Chemistry , University of Nottingham , Nottingham , NG7 2RD , UK.
Department of Chemistry , University of Warwick , CV4 7AL , UK.
ISIS Facility , STFC Rutherford Appleton Laboratory , Oxfordshire OX11 0QX , UK.
Oak Ridge National Laboratory , Oak Ridge , TN 37831 , USA.
Diamond Light Source , Harwell Science and Innovation Campus , Oxfordshire , OX11 0DE , UK.
School of Chemistry , Cardiff University , Cardiff CF10 3XQ , UK.


In order to develop new porous materials for applications in gas separations such as natural gas upgrading, landfill gas processing and acetylene purification it is vital to gain understanding of host-substrate interactions at a molecular level. Herein we report a series of six isoreticular metal-organic frameworks (MOFs) for selective gas adsorption. These materials do not incorporate open metal sites and thus provide an excellent platform to investigate the effect of the incorporation of ligand functionality via amide and alkyne groups on substrate binding. By reducing the length of the linker in our previously reported MFM-136, we report much improved CO2/CH4 (50 : 50) and CO2/N2 (15 : 85) selectivity values of 20.2 and 65.4, respectively (1 bar and 273 K), in the new amide-decorated MOF, MFM-126. The CO2 separation performance of MFM-126 has been confirmed by dynamic breakthrough experiments. In situ inelastic neutron scattering and synchrotron FT-IR microspectroscopy were employed to elucidate dynamic interactions of adsorbed CO2 molecules within MFM-126. Upon changing the functionality to an alkyne group in MFM-127, the CO2 uptake decreases but the C2H2 uptake increases by 68%, leading to excellent C2H2/CO2 and C2H2/CH4 selectivities of 3.7 and 21.2, respectively. Neutron powder diffraction enabled the direct observation of the preferred binding domains in MFM-126 and MFM-127, and, to the best of our knowledge, we report the first example of acetylene binding to an alkyne moiety in a porous material, with over 50% of the acetylene observed within MFM-127 displaying interactions (<4 Å) with the alkyne functionality of the framework.

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