Highly efficient CO2 capture by carbonyl-containing ionic liquids through Lewis acid–base and cooperative C–H⋯O hydrogen bonding interaction strengthened by the anion
Chemical Communications2014Vol. 50(95), pp. 15041–15044
Citations Over TimeTop 11% of 2014 papers
Abstract
A strategy to improve CO2 capture significantly through the non-covalent interaction strengthened by the anion was reported, which exhibits an extremely high capacity up to 1.24 mole CO2 per mole ionic liquid and excellent reversibility due to the presence of the enhanced Lewis acid-base and cooperative C-HO hydrogen bonding interactions.
Related Papers
- → Surface Modification by Electrostatic Self‐Assembly Followed by Covalent Fixation(2012)12 cited
- → Covalent and ionic species in cationic polymerizations: Rates of exchange(1988)8 cited
- → Multiple Ionic-Covalent Couplings in Molecules and Clusters(2009)4 cited
- → On the ionic and covalent characters of uranium-fluorine bonds in complex fluorides of uranium(1976)3 cited
- → O 2p Itinerant Electron Model for Magnetic Oxides(2021)