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Exploring the Potential of a Highly Scalable Metal-Organic Framework CALF-20 for Selective Gas Adsorption at Low Pressure.

Mostafa Yousefzadeh BorzehandaniMajid Namayandeh JorabchiEmilia AbdulmalekMohd Basyaruddin Abdul RahmanMuhammad Alif Mohammad Latif
Published in: Polymers (2023)
In this study, the ability of the highly scalable metal-organic framework (MOF) CALF-20 to adsorb polar and non-polar gases at low pressure was investigated using grand canonical Monte Carlo (GCMC) and molecular dynamics (MD) simulations. The results from the simulated adsorption isotherms revealed that the highest loading was achieved for SO 2 and Cl 2 , while the lowest loading was found for F 2 molecules. The analysis of interaction energies indicated that SO 2 molecules were able to form the strongest adsorbent-adsorbate interactions and had a tight molecular packing due to their polarity and angular structure. Additionally, Cl 2 gas was found to be highly adsorbed due to its large van der Waals surface and strong chemical affinity in CALF-20 pores. MD simulations showed that SO 2 and Cl 2 had the lowest mobility inside CALF-20 pores. The values of the Henry coefficient and isosteric heat of adsorption confirmed that CALF-20 could selectively adsorb SO 2 and Cl 2 . Based on the results, it was concluded that CALF-20 is a suitable adsorbent for SO 2 and Cl 2 but not for F 2 . This research emphasizes the importance of molecular size, geometry, and polarity in determining the suitability of a porous material as an adsorbent for specific adsorbates.
Keyphrases
  • metal organic framework
  • molecular dynamics
  • aqueous solution
  • monte carlo
  • density functional theory
  • room temperature
  • solid phase extraction
  • blood brain barrier
  • ionic liquid
  • carbon dioxide