The Effect of Alkaline Cations on the Intercalation of Carbon Dioxide in Sepiolite Minerals: A Molecular Dynamics Investigation
The ability of the sepiolite mineral to intercalate CO2 molecules inside its channels in the presence of different alkaline cations (K+, Na+, and Li+) has been studied by classical molecular dynamics simulations. Starting from an alkaline-free sepiolite crystalline model, we built three models with...
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Frontiers Media S.A.
2018-03-01
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| Series: | Frontiers in Materials |
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| Online Access: | http://journal.frontiersin.org/article/10.3389/fmats.2018.00012/full |
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doaj-cfbcd7004cd24ac68486684685ecb59f2020-11-24T21:29:08ZengFrontiers Media S.A.Frontiers in Materials2296-80162018-03-01510.3389/fmats.2018.00012352907The Effect of Alkaline Cations on the Intercalation of Carbon Dioxide in Sepiolite Minerals: A Molecular Dynamics InvestigationFrancesco Tavanti0Francesco Muniz-Miranda1Alfonso Pedone2Department of Chemical and Geological Sciences (DSCG), University of Modena and Reggio Emilia (UniMoRE), Modena, ItalyDepartment of Chemical and Geological Sciences (DSCG), University of Modena and Reggio Emilia (UniMoRE), Modena, ItalyDepartment of Chemical and Geological Sciences (DSCG), University of Modena and Reggio Emilia (UniMoRE), Modena, ItalyThe ability of the sepiolite mineral to intercalate CO2 molecules inside its channels in the presence of different alkaline cations (K+, Na+, and Li+) has been studied by classical molecular dynamics simulations. Starting from an alkaline-free sepiolite crystalline model, we built three models with stoichiometry Mg320Si440Al40O1200(OH)160X+40·480H2O. On these models, we gradually replaced the water molecules present in the channels with carbon dioxide and determined the energy of this exchange reaction as well as the structural organization and dynamics of carbon dioxide in the channels. The adsorption energy shows that the Li-containing sepiolite mineral retains more carbon dioxide with respect to those with sodium and potassium cations in the channels. Moreover, the ordered patterns of CO2 molecules observed in the alkaline-free sepiolite mineral are in part destabilized by the presence of cations decreasing the adsorption capacity of this clay mineral.http://journal.frontiersin.org/article/10.3389/fmats.2018.00012/fullmolecular dynamics simulationssepiolitecarbon dioxidealkaline cationsphyllosilicate |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Francesco Tavanti Francesco Muniz-Miranda Alfonso Pedone |
| spellingShingle |
Francesco Tavanti Francesco Muniz-Miranda Alfonso Pedone The Effect of Alkaline Cations on the Intercalation of Carbon Dioxide in Sepiolite Minerals: A Molecular Dynamics Investigation Frontiers in Materials molecular dynamics simulations sepiolite carbon dioxide alkaline cations phyllosilicate |
| author_facet |
Francesco Tavanti Francesco Muniz-Miranda Alfonso Pedone |
| author_sort |
Francesco Tavanti |
| title |
The Effect of Alkaline Cations on the Intercalation of Carbon Dioxide in Sepiolite Minerals: A Molecular Dynamics Investigation |
| title_short |
The Effect of Alkaline Cations on the Intercalation of Carbon Dioxide in Sepiolite Minerals: A Molecular Dynamics Investigation |
| title_full |
The Effect of Alkaline Cations on the Intercalation of Carbon Dioxide in Sepiolite Minerals: A Molecular Dynamics Investigation |
| title_fullStr |
The Effect of Alkaline Cations on the Intercalation of Carbon Dioxide in Sepiolite Minerals: A Molecular Dynamics Investigation |
| title_full_unstemmed |
The Effect of Alkaline Cations on the Intercalation of Carbon Dioxide in Sepiolite Minerals: A Molecular Dynamics Investigation |
| title_sort |
effect of alkaline cations on the intercalation of carbon dioxide in sepiolite minerals: a molecular dynamics investigation |
| publisher |
Frontiers Media S.A. |
| series |
Frontiers in Materials |
| issn |
2296-8016 |
| publishDate |
2018-03-01 |
| description |
The ability of the sepiolite mineral to intercalate CO2 molecules inside its channels in the presence of different alkaline cations (K+, Na+, and Li+) has been studied by classical molecular dynamics simulations. Starting from an alkaline-free sepiolite crystalline model, we built three models with stoichiometry Mg320Si440Al40O1200(OH)160X+40·480H2O. On these models, we gradually replaced the water molecules present in the channels with carbon dioxide and determined the energy of this exchange reaction as well as the structural organization and dynamics of carbon dioxide in the channels. The adsorption energy shows that the Li-containing sepiolite mineral retains more carbon dioxide with respect to those with sodium and potassium cations in the channels. Moreover, the ordered patterns of CO2 molecules observed in the alkaline-free sepiolite mineral are in part destabilized by the presence of cations decreasing the adsorption capacity of this clay mineral. |
| topic |
molecular dynamics simulations sepiolite carbon dioxide alkaline cations phyllosilicate |
| url |
http://journal.frontiersin.org/article/10.3389/fmats.2018.00012/full |
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