As evaluated with 15 crown ethers which contain varying numbers of benzo substituents, the
magnitude of the extraction selectivities (and in one case, the selectivity order) of aromatic group-containing
ionophores for alkali metal picrates may vary significantly from those for alkali metal salts with inorganic
anions as a result of π−π interactions between picrate ion and an aromatic unit of the ionophore. The importance
of the “picrate effect” increases as the number of benzo groups in the crown ether is enhanced and varies with
their location in the macrocycle. To verify the involvement of picrate−crown ether π-stacking in complexation,
crown ether−alkali metal picrate complexes were examined in solution by 1H NMR spectroscopy and solid-state structures for nine complexes were determined by X-ray diffraction. Dependence of the chemical shift
for the picrate proton singlet in the NMR spectrum on the metal cation and/or macrocycle identity in the metal
picrate−crown ether complex was found to be a convenient tool for studying anion−ligand π−π interactions
in solution.
A series of synthetic receptors (4-6) incorporating metal ions, specifically copper(II), were examined for their ability to enhance the acidity of active methylene compounds. The copper(II) complexes were observed to reduce the pKa of 1,3-diketone carbon acids in acetonitrile by as much as 12 pKa units. The relatively large pKa reduction achieved by the complex is attributed to the electrostatic interaction between the anionic pi system of the enolate and the copper(II) ions. The cage structure and hydrogen bonding sites in receptors 4 and 5 lead to a very modest further enhancement of the acidity relative to that with 6. This study provides insight into the way in which metalloenzymes stabilize an enolate intermediate.
Separation factor values for pairs of alkali metal cations determined in competitive solvent extractions of alkali metal picrates from aqueous solutions into chloroform by a variety of benzo- and cyclohexano-group-containing crown ethers vary significantly from extrapolations based upon the results of single-species extraction experiments. For almost all of the crown ether-alkali metal cation combinations examined, the separation factor values are greater for competitive solvent extraction. In view of the unexpected results for sodium picrate extraction by dibenzo-24-crown-8, the solid-state structure of the isolated complex was determined.
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