Molecular species containing more than one metal ion offer the possibility of co-operative behavior between the metal centers, which may lead to new properties and reactivity. Nature utilizes such co-operative properties in enzymes that catalyze several different processes, but moreover oligonuclear metal complexes are of fundamental interest in the field of molecule-based magnets, with the most thoroughly investigated examples of single molecule magnets being oxo- and hydroxo-bridged polymetallic systems. The systematic variation of the electronic properties by means of varying the spin system will be studied spectroscopically and magnetically in order to establish magneto-structural relationships for heterometallic compounds or metal complexes with additional spin carrying organic units. In the project we will prepare new coordination compounds starting from well-known transition metal clusters as building blocks using new synthetic strategies. Heteropolynuclear complexes and compounds bearing redox-active ligands will be obtained and studied in detail by X-ray crystallography, spectroscopic methods like Mössbauer and UV-Vis as well as magnetic susceptibility measurements. Successful performance of this research will provide a profound understanding of synthetic strategies to new homo- and heteropolymetallic compounds including various spin centers. Our long-standing interest and experience in the study of magneto-structural correlations in polynuclear iron systems with basic carboxylate groups provides us with the basis to successfully carry out the project on ordered multidimensional spin arrays.

DFG Programme Priority Programmes

Subproject of SPP 1137:  Molecular Magnetism