Please use this identifier to cite or link to this item: http://localhost:8080/xmlui/handle/123456789/465
Title: Assessment of stereoelectronic factors that influence the CO2 fixation ability of N-Heterocyclic carbenes: A DFT study
Authors: Ajitha, M J
Suresh, C H
Keywords: Organometalic chemistry
NHC Ligands
Electronic properties
Phosphine ligands
Electrochemical parameterization
Substituent constants
Hammett constants
PI-interactions
Issue Date: 20-Jan-2012
Publisher: American Chemical Society
Citation: Journal of Organic Chemistry 77(2):1087-1094;20 Jan 2012
Abstract: The CO2 fixation ability of N-heterocyclic carbenes (NHC) has been assessed on the basis of electronic and steric properties of the N- and C-substituents,measured in terms of molecular electrostatic potential minimum, observed at the carbene lone pair region of NHC (Vmin1) as well as at the carboxylate region of the NHC−CO2 adduct (Vmin2). Both Vmin1 and Vmin2 are found to be simple and efficient descriptors of the stereoelectronic effect of NHCs. The Vmin-based analysis also proved that the stereoelectronic effect of N- and C-substituents is additive. When only C-substituents are present in NHC, its CO2 affinity solely depends on the electronic effect, whereas if the N-center bears the substituents, the steric factor plays a major role in the carboxylation/decarboxylation process. For standard substituents, maximum CO2 binding energy of 18.0 kcal/mol is observed for the most electrondonating combination of NMe2 as the C-substituent and Me as the N-substituent.Introduction of ring strain through five-membered ring fusion at the NC bond slightly increased the electron-rich character of the carbene lone pair and also enhanced the CO2 binding energy to 20.9 kcal/mol. To further improve the CO2 fixing ability of NHCs, we have proposed the use of CH2OH, CH2NHCOMe, and CH2NHPh as Nsubstituents, as they participate in intramolecular hydrogen bond interaction with the carboxylate. With the new strategy,considerable improvement in the CO2 binding energy (26.5 to 33.0 kcal/mol) is observed
URI: http://hdl.handle.net/123456789/465
Appears in Collections:2012

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