Issue 14, 2012

Hierarchical modeling of ammonia adsorption in functionalized metal–organic frameworks

Abstract

The adsorption of ammonia in four metal–organic frameworks modified with different functional groups (–OH, –C[double bond, length as m-dash]O, –Cl, –COOH) was investigated using a hierarchical molecular modeling approach. To describe the hydrogen bonding and other strong interactions between NH3 and the surface functional groups, a set of Morse potential parameters were obtained by fitting to energies from quantum chemical calculations at the MP2 level of theory. We describe a systematic force field parameterization process, in which the Morse parameters were fitted using simulated annealing to match a large number of single-point MP2 energies at various distances and angles. The fitted potentials were then used in grand canonical Monte Carlo simulations to predict ammonia adsorption isotherms and heats of adsorption in functionalized MIL-47, IRMOF-1, IRMOF-10, and IRMOF-16. The results show that ammonia adsorption can be significantly enhanced by using materials with appropriate pore size, strongly interacting functional groups, and high density of functional groups.

Graphical abstract: Hierarchical modeling of ammonia adsorption in functionalized metal–organic frameworks

Supplementary files

Article information

Article type
Paper
Submitted
10 Oct 2011
Accepted
27 Jan 2012
First published
28 Feb 2012

Dalton Trans., 2012,41, 3962-3973

Hierarchical modeling of ammonia adsorption in functionalized metal–organic frameworks

D. Yu, P. Ghosh and R. Q. Snurr, Dalton Trans., 2012, 41, 3962 DOI: 10.1039/C2DT11908K

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