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Title: | Resonance enhancement via imidazole substitution predicts new cation receptors |
Authors: | Suresh, C H Sayyed, F B |
Keywords: | Imidazolidine Ammonia Ammonium cations |
Issue Date: | 2013 |
Publisher: | American Chemical Society |
Citation: | The Journal of Physical Chemistry A 117(40):10455−10461;12 Sep 2013 |
Abstract: | Design and development of cation receptors represent a fascinating area of research, particularly in dealing with chemical and biological applications that require finetuning of cation−π interactions. The electronic nature of a substituent is largely responsible for tuning the strength of cation−π interaction, and recent studies have shown that substituent resonance effect contributes significantly to such interactions. Using substituent resonance effect as a key electronic factor, we have proposed new cation−π receptors (1···M+−4···M+; M+ = Li+, Na+, K+, NH4+, and NMe4 +). B3LYP/6-311+G(d,p) density functional theory (DFT) calculations show that by using a strategy of resonance donation from six nitrogen atoms via three substituted imidazole subunits, more than 4-fold increase in cation−π interaction energy (EM +) can be achieved for a single phenyl ring compared to benzene. The EM + (M+ = NH4 +, NMe4 +) of 4···M+, wherein M+ interacts with only one phenyl ring, is significantly higher than EM + of a known cation host with several aromatic rings (abstract figure). Our hypothesis on resonance enhancement of cation−π interaction is verified using several π-systems (5−10) containing a lone pair bearing six nitrogens and observed that a nitrogen lone pair attached to a double bond is more effective for donation than the lone pair that is directly attached to the benzenoid ring. Further, a convenient strategy to design electron rich π-systems is provided on the basis of topographical analysis of molecular electrostatic potential. |
URI: | http://ir.niist.res.in:8080/jspui/handle/123456789/1122 |
Appears in Collections: | 2013 |
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