PREPARATION OF CA2+ SELECTIVE SORBENTS BY MOLECULAR IMPRINTING USING POLYMERIZABLE IONOPHORES

Molecular imprints against calcium and magnesium ions, respectively, were prepared in divinylbenzene-based polymers. A vinylic, Ca2+-selective, neutral ionophore N,N'-dimethyl-N,N'-bis-(4-vinylphenyl)-3-oxapentanediamide was synthesized and used as the ion-complexing monomer. In order to investigate the ion-complexing abilities of this neutral ionophore, this compound was tested as a neutral carrier in the plasticised PVC membrane of an ion-selective electrode. Electrode response and selectivity coefficients recorded for the ionophore proved to be equivalent to the values recorded for similar parent diglycolic acid amides. In analogy with other 3-oxapentanediamide derivatives, the ionophore is expected to form complexes with calcium and magnesium ions with a molar ratio, ligand to metal ion, of 3:1 and 2:1, respectively. Therefore the metal ion, added to the polymerisation mixture, was expected to act as a template for the ionophore during the polymerisation. The resulting polymers were analysed for their ability to extract calcium ions from methanolic water. The polymers prepared against calcium and magnesium ions were found to bind calcium ions with 6- and 1.7-times lower K(diss)-values, respectively, when compared with reference polymers prepared in the absence of metal ions. The increased binding strength is attributed to the spatial arrangement of ionophore units in the resulting polymers by the template ions during the polymerisation. In addition, the number of binding sites for calcium ions, determined for the respective polymer preparation, fitted well with theoretical values calculated from the stoichiometry of complexation of the ionophore by calcium and magnesium ions, respectively.