WITHDRAWN: Sustainable liquid membrane separation using interfacial engineering of deep eutectic solvent and cellulose acetate

“…A CO 2 -phillic membrane developed from choline chloride:ethylene glycol DES confined into graphene oxide nanoslits was designed by Li et al; 75 the reported results showed large changes in the DESs upon confinement, which led to outstanding separation performance, thereby forming a suitable membrane for CO 2 capture. Graphene oxide + DESs membranes were also developed by Mubasir et al, 76 confirming suitable permeability, durability, and selectivity. Similarly, DESs confined in graphite or rutile, 77 nanoporous or mesoporous silica, 78,79 laminated MXene, 80 metal organic frameworks, 81 or immobilized on polymeric membranes, 82 probed how the performance of DESs can be improved through interaction and confinement with suitable materials, thus allowing the development of membranes for CO 2 capture.…”

Review and Perspectives for Effective Solutions to Grand Challenges of Energy and Fuels Technologies via Novel Deep Eutectic Solvents

“…A CO 2 -phillic membrane developed from choline chloride:ethylene glycol DES confined into graphene oxide nanoslits was designed by Li et al; 75 the reported results showed large changes in the DESs upon confinement, which led to outstanding separation performance, thereby forming a suitable membrane for CO 2 capture. Graphene oxide + DESs membranes were also developed by Mubasir et al, 76 confirming suitable permeability, durability, and selectivity. Similarly, DESs confined in graphite or rutile, 77 nanoporous or mesoporous silica, 78,79 laminated MXene, 80 metal organic frameworks, 81 or immobilized on polymeric membranes, 82 probed how the performance of DESs can be improved through interaction and confinement with suitable materials, thus allowing the development of membranes for CO 2 capture.…”

Review and Perspectives for Effective Solutions to Grand Challenges of Energy and Fuels Technologies via Novel Deep Eutectic Solvents

Adsorption behavior of mercury over hydrated lime: Experimental investigation and adsorption process characteristic study

Sustainable functionalized metal-organic framework NH2-MIL-101(Al) for CO2 separation under cryogenic conditions