The influence of the positively charged N methyl¬pyridinium substituent on the anion binding tendencies of urea-based receptors has been investigated by comparing molecules 1 and 2. These receptors have been studied in acetonitrile, by performing UV-vis. and 1H-NMR titrations with several anions. UV-vis. titrations have been also performed in DMSO, MeOH and CHCl3/CH3CN mixture (1/1, v/v). In the case of 1, the presence of both H-donor and H-acceptor groups (urea and pyridine, respectively) favours aggregation and the formation of dimers in the solid state. In solution, this tendency to aggregation reduces affinity for anions with respect to the similar urea-based receptor 3. The methylation of the pyridyl group of 1 leads to the pyridinium containing receptor 2. The pyridinium positive charge enhances the acidity of urea and increases anion affinity, as evidenced by the comparison of the binding constants. Both receptors (1-2) form stable adducts with all investigated anions. However, in the case of 2, the formation of 1:1 adducts with basic anions, such as acetate and fluoride, is followed by a proton transfer process. Quite interestingly, deprotonation does not involve the urea group, thus preserving the 1:1 adduct, as demonstrated by the 1H-NMR measurements. In particular, the proton transfer process takes place at the methylene group linking the pyridinium fragment to the receptor’s skeleton. 1H-NMR studies indicate the formation of a stable neutral methine species, characterised by the loss of aromaticity by the pyridyl ring. These results open new perspectives in the field on anion recognition, as receptor 2 may by applied to the monitoring of both bound anion (through the urea unit) and excess anion in solution (through the development of the yellow methine species).

Pyridinium/urea-based anion receptor: methine formation in the presence of basic anions

BERGAMASCHI, GRETA;BOIOCCHI, MASSIMO;MONZANI, ENRICO;AMENDOLA, VALERIA
Project Administration
2011-01-01

Abstract

The influence of the positively charged N methyl¬pyridinium substituent on the anion binding tendencies of urea-based receptors has been investigated by comparing molecules 1 and 2. These receptors have been studied in acetonitrile, by performing UV-vis. and 1H-NMR titrations with several anions. UV-vis. titrations have been also performed in DMSO, MeOH and CHCl3/CH3CN mixture (1/1, v/v). In the case of 1, the presence of both H-donor and H-acceptor groups (urea and pyridine, respectively) favours aggregation and the formation of dimers in the solid state. In solution, this tendency to aggregation reduces affinity for anions with respect to the similar urea-based receptor 3. The methylation of the pyridyl group of 1 leads to the pyridinium containing receptor 2. The pyridinium positive charge enhances the acidity of urea and increases anion affinity, as evidenced by the comparison of the binding constants. Both receptors (1-2) form stable adducts with all investigated anions. However, in the case of 2, the formation of 1:1 adducts with basic anions, such as acetate and fluoride, is followed by a proton transfer process. Quite interestingly, deprotonation does not involve the urea group, thus preserving the 1:1 adduct, as demonstrated by the 1H-NMR measurements. In particular, the proton transfer process takes place at the methylene group linking the pyridinium fragment to the receptor’s skeleton. 1H-NMR studies indicate the formation of a stable neutral methine species, characterised by the loss of aromaticity by the pyridyl ring. These results open new perspectives in the field on anion recognition, as receptor 2 may by applied to the monitoring of both bound anion (through the urea unit) and excess anion in solution (through the development of the yellow methine species).
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11571/328126
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