Abstract

The reaction of an aqueous solution of sodium molybdate with cysteine hydrochloride acting as educt and reducing agent at rather low pH values (≈1.5) results in the formation of Na3[Mo154O462H14(H2 O)48(HO2C–(NH3+)HC –CH2–S–S–CH2–CH(NH 3+)–COO−)11] ·x H2O 1 (x ≈250) containing nanosized ring-shaped clusters which capture the oxidation product of cysteine, i.e. the diprotonated cystine ligands (H2cystine+) at the inner wall of their cavities; interestingly, the multiphilic ligands containing different types of functional groups (two –NH3+, one –CO2−, one –CO2H and one –S–S–) attach to the inner wall of the cluster through one of the two carboxylate groups thereby demonstrating the possibility to generate novel type surfaces within the cavity of a nanostructured ring-shaped cluster.