Graphynes are porous derivatives of graphene that can be considered as ideal 2D nanofilters. Here, we investigate by theoretical methods graphtriyne single layer, proposing them as membranes featuring pores of subnanometer size suitable for CO /N /H O separation and CO uptake. The potential energy surfaces, representing the intermolecular interactions within the CO gaseous mixtures and between the graphtriyne single layer and the molecules, have been formulated in an internally consistent way, by adopting potential models far more accurate than the traditional Lennard-Jones functions, routinely used to predict static and dynamical properties of matter.
Molecular Simulations of CO/N /H O Gaseous Mixture Separation in Graphtriyne Membrane
Faginas-Lago N.
Methodology
;Lombardi A.
2019
Abstract
Graphynes are porous derivatives of graphene that can be considered as ideal 2D nanofilters. Here, we investigate by theoretical methods graphtriyne single layer, proposing them as membranes featuring pores of subnanometer size suitable for CO /N /H O separation and CO uptake. The potential energy surfaces, representing the intermolecular interactions within the CO gaseous mixtures and between the graphtriyne single layer and the molecules, have been formulated in an internally consistent way, by adopting potential models far more accurate than the traditional Lennard-Jones functions, routinely used to predict static and dynamical properties of matter.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
