D.K. Davis scite author profile

Adsorption of CO 2 and N 2 , both as single components and as binary mixtures, in three zeolites with identical chemical composition but differing pore structures (silicalite, ITQ-3, and ITQ-7) was studied using atomistic simulations. These three zeolites preferentially adsorb CO 2 over N 2 during both single-component and mixture adsorption. The CO 2 /N 2 selectivities observed in the three siliceous zeolites vary strongly as the adsorbent's crystal structure changes, with the selectivity in ITQ-3 being the largest. Our studies indicate that the different electric fields present inside zeolites with different crystal structures but identical chemical composition play an important role in the observed adsorption capacities and selectivities. The accuracy of the ideal absorbed solution theory in predicting the behavior of CO 2 /N 2 mixtures in silica zeolites based on single component adsorption data was also tested; this theory performs quite accurately for these adsorbed mixtures.

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Atomistic Simulations of CO₂ and N₂ Diffusion in Silica Zeolites: The Impact of Pore Size and Shape

Selassie

Davis

Dahlin

et al. 2008

J. Phys. Chem. C

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Diffusion of CO 2 and N 2 , both as single components and as binary mixtures, in three zeolites with identical chemical composition but differing pore structuresssilicalite, ITQ-3, and ITQ-7swas studied using atomistic simulations. In all materials CO 2 diffuses slower than N 2 , but otherwise the behavior of these gases within ITQ-7 and silicalite is quite different than within ITQ-3. In ITQ-7 and silicalite, the loading dependence of diffusion is very similar for CO 2 and N 2 ; the apparent activation energies for diffusion of each adsorbate are similar in the two materials, and the diffusion properties of adsorbed mixtures can easily be understood. In contrast, none of these are true within ITQ-3. Free energy and potential energy profiles are used to uncover the roots of these differences. The preferential sites of adsorption for CO 2 and N 2 are the same within ITQ-7 and silicalite but not within ITQ-3. In ITQ-3, CO 2 molecules preferentially adsorb in the windows that separate the material's cages, whereas for N 2 this is the site of the largest barrier to diffusion. As a consequence, CO 2 hinders N 2 diffusion very effectively. Our analysis suggests that this behavior might be common for adsorbates that interact strongly with a material that has narrow windows between cages.

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Solenoid-Operated Gas Sampler for Use in Gas Chromatography

Palmer¹,

Davis²,

Willis³

1960

Anal. Chem.

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Semi-micro cryoscopic molecular weight determination with a thermistor thermometer

Knight

Wilkins

Davis

et al. 1961

Analytica Chimica Acta

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D.K. Davis

Atomistic Simulations of CO₂ and N₂ Adsorption in Silica Zeolites: The Impact of Pore Size and Shape

Atomistic Simulations of CO₂ and N₂ Diffusion in Silica Zeolites: The Impact of Pore Size and Shape

Solenoid-Operated Gas Sampler for Use in Gas Chromatography

Semi-micro cryoscopic molecular weight determination with a thermistor thermometer

Contact Info

Product

Resources

About

D.K. Davis

Atomistic Simulations of CO2 and N2 Adsorption in Silica Zeolites: The Impact of Pore Size and Shape

Atomistic Simulations of CO2 and N2 Diffusion in Silica Zeolites: The Impact of Pore Size and Shape

Solenoid-Operated Gas Sampler for Use in Gas Chromatography

Semi-micro cryoscopic molecular weight determination with a thermistor thermometer

Contact Info

Product

Resources

About

Atomistic Simulations of CO₂ and N₂ Adsorption in Silica Zeolites: The Impact of Pore Size and Shape

Atomistic Simulations of CO₂ and N₂ Diffusion in Silica Zeolites: The Impact of Pore Size and Shape