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Adsorption and transport of CH4, CO2, H-2 mixtures in a bio-MOF material from molecular simulations

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Accurate description of gas adsorption and diffusion in nanoporous materials is crucial in envisioning new materials for adsorption-based and membrane-based gas separations. This study provides the first information about the equilibrium and transport properties of different gas mixtures in a bio-metal organic framework (bio-MOF). Adsorption isotherms and self-diffusivity coefficients of CH4, CO2, H-2, and their binary mixtures in bio-MOF-11 were computed using grand canonical Monte Carlo and equilibrium molecular dynamics simulations. Results showed that bio-MOF-11 exhibits significantly higher adsorption selectivity for CO2 over CH4 and H-2 than the widely studied MOFs. Bio-MOF-11 outperforms several isoreticular MOFs, traditional zeolites, and zeolite imidazolate frameworks in membrane-based separations of CH4/H-2, CO2/CH4, and CO2/H-2 mixtures due to its high gas permeability and permeation selectivity. The methods used in this work will assess the potential of bio-MOFs in gas separations and accelerate development of new bio-MOFs for targeted applications by providing molecular insights into adsorption transport of gas mixtures.

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Amer Chemical Soc

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Chemistry, Physical, Nanoscience, Nanotechnology, Materials science

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Journal of Physical Chemistry C

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10.1021/jp200429x

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