Understanding gas capacity, guest selectivity and diffusion in porous liquids

greenaway, holden, eden, stephenson, Yong, YW, bennison, hasell, Briggs, ME, james, SL and cooper
(2017) Understanding gas capacity, guest selectivity and diffusion in porous liquids. Chemical Science, 2017 (4). pp. 2640-2651.

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Porous liquids are a new class of material that could have applications in areas such as gas separation and homogeneous catalysis. Here we use a combination of measurement techniques, molecular simulations, and control experiments to advance the quantitative understanding of these liquids. In particular, we show that the cage cavities remain unoccupied in the absence of a suitable guest, and that the liquids can adsorb large quantities of gas, with gas occupancy in the cages as high as 72% and 74% for Xe and SF6, respectively. Gases can be reversibly loaded and released by using non-chemical triggers such as sonication, suggesting potential for gas separation schemes. Diffusion NMR experiments show that gases are in dynamic equilibrium between a bound and unbound state in the cage cavities, in agreement with recent simulations for related porous liquids. Comparison with gas adsorption in porous organic cage solids suggests that porous liquids have similar gas binding affinities, and that the physical properties of the cage molecule are translated into the liquid state. By contrast, some physical properties are different: for example, solid homochiral porous cages show enantioselectivity for chiral aromatic alcohols, whereas the equivalent homochiral porous liquids do not. This can be attributed to a loss of supramolecular organisation in the isotropic porous liquid.

Item Type: Article
Uncontrolled Keywords: 3403 Macromolecular and Materials Chemistry, 34 Chemical Sciences
Depositing User: Symplectic Admin
Date Deposited: 17 Jan 2017 09:03
Last Modified: 20 Jun 2024 18:11
DOI: 10.1039/c6sc05196k
Related URLs:
URI: https://livrepository.liverpool.ac.uk/id/eprint/3005259