posted on 2023-01-18, 22:14authored bySilda Peters, E. Varathan, Renjith S. Pillai
One of the important understandings of porous solids
like metal–organic
frameworks (MOFs) is their flexibility. Therefore, there are certain
computational studies on flexible MOFs in the literature, primarily
concentrating on MIL-53, UiO-66, and DUT-49. Here, investigation of
another class of MOF, that is, [Ni(1,4-pyrazine)2(AlF5)]n, was shown to have guest-induced
flexible characteristics; nevertheless, the mechanism for the emergence
of flexibility is uncertain. We simulated the structural flexibility
of [Ni(1,4-pyrazine)2(AlF5)]n, named ALFFIVE-Ni-pyr-TBP, upon adsorption of a guest molecule
based on force fields using the molecular dynamics (MD) method and
Monte Carlo (MC) simulations. As the first step towards understanding
guest-induced flexibility, the MC simulations were performed by relaxing
the framework and then further comparing it with the rigid framework.
Subsequently, MD simulations were executed on the ALFFIVE-Ni-pyr-TBP
framework with and without the guest molecules. In the case of moisture
adsorption, the MOF system was identified to undergo a geometric transformation
from trigonal bipyramidal to square bipyramidal geometry due to the
strong interaction of oxygen of the water with the metal aluminum.
However, some tilting in the pyrazine ligand was observed in the presence
of all the guest molecules. Therefore, the detailed guest-induced
flexibility described in this work could support the ALFFIVE series
to be explored for future adsorption applications.