Understanding gas adsorption selectivity in IRMOF-8 using molecular simulation

01/01/2015

Grand canonical Monte Carlo simulations were used to explore the adsorption behavior of methane, ethane, ethylene, and carbon dioxide in isoreticular metal-organic frameworks, IRMOF-1, noninterpenetrated IRMOF-8, and interpenetrated IRMOF-8. The simulated isotherms are compared with experimentally measured isotherms, when available, and a good agreement is observed. In the case of IRMOF-8, the agreement is much better for the interpenetrated model than for the noninterpenetrated model, suggesting that the experimental data was obtained on an essentially interpenetrated structure. Simulations show that carbon dioxide is preferentially adsorbed over methane, and a selective adsorption at low pressures of ethane over ethylene, especially in the case of IRMOF-8, confirm recent experimental results. l Van der Waals interactions seem to be enhanced in the interpenetrated structure, favoring ethane adsorption. This indicates that interpenetrated MOF structures may be of interest for the separation of small gas molecules.

Authors in the community:

• 

  M

  Moisés Luzia Gonçalves Pinto

  ist416959

  Affiliations and sources

  IST > CERENA

  Centro de Recursos Naturais e Ambiente

  IST > DEQ

  Departamento de Engenharia Química

  In: scopus

  ID: 2-s2.0-84921285723

ACS Applied Materials and Interfaces

624

637

7

1

10.1021/am506793b

chemical-engineering - Chemical engineering

eng - English