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Please use this identifier to cite or link to this item: https://hdl.handle.net/2445/199401
Size-Pore-Dependent Methanol Sequestration from Water-Methanol Mixtures by an Embedded Graphene Slit
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The separation of liquid mixture components is relevant to many applications¿ranging from water purification to biofuel production¿and is a growing concern related to the UN Sustain- able Development Goals (SDGs), such as 'Clean water and Sanitation' and 'Affordable and clean energy'. One promising technique is using graphene slit-pores as filters, or sponges, because the confinement potentially affects the properties of the mixture components in different ways, favoring their separation. However, no systematic study has shown how the size of a pore changes the ther- modynamics of the surrounding mixture. Here, we focus on water-methanol mixtures and explore, using Molecular Dynamics simulations, the effects of a graphene pore, with size ranging from 6.5 to 13 Å, for three compositions: pure water, 90%-10%, and 75%-25% water-methanol. We show that tuning the pore size can change the mixture pressure, density and composition in bulk due to the size-dependent methanol sequestration within the pore. Our results can help in optimizing the graphene pore size for filtering applications.
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BELLIDO PERALTA, Roger, et al. Size-Pore-Dependent Methanol Sequestration from Water-Methanol Mixtures by an Embedded Graphene Slit. Molecules. 2023. Vol. 28, num. 8, pags. 3697. ISSN 1420-3049. [consulted: 16 of June of 2026]. Available at: https://hdl.handle.net/2445/199401