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Título
Nanoscopic characterization of type II porous liquid and its use for CO2 absorption from molecular simulation
Publicado en
Journal of Molecular Liquids. 2021, V. 330, 115660
Editorial
Elsevier
Fecha de publicación
2021-05
ISSN
0167-7322
DOI
10.1016/j.molliq.2021.115660
Resumo
The properties of cage(33:133) macrocycle in perchloropropene (PCP) as model for type II porous liquids were studied using molecular simulation tools. Likewise, the behaviour of CO2 in these porous liquid phases were studied to analyse the nanoscopic mechanism for carbon capture purposes. Quantum chemistry calculations using Density Functional Theory were carried out to characterize the intermolecular forces between cage, solvent and CO2 molecules. Molecular dynamics simulations of liquid phases at different cage concentration provides information on the structuring, aggregation, solvation and dynamic properties of these porous liquids. The reported results led to a full characterization of the features controlling type II porous liquids properties as well as the behaviour of carbon dioxide in them, thus providing the required information for the proper design of porous liquids and their use for carbon capturing operations. The nanoscopic structure of the studied fluids showed that it is possible to solubilize suitable amounts of the cages in the solvents to develop a network of pores in the liquid to capture CO2 in an efficient way.
Palabras clave
Porous liquids
Carbon dioxide
Molecular simulation
Intermolecular forces
Materia
Química física
Chemistry, Physical and theoretical
Versión del editor
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