| dc.description.abstract | In an effort to study innovative multifunctional molecular materials, two new coordination compounds
have been designed containing MnII as a metallic source and a specific curcuminoid called 9Accm as a
chelating ligand. Synthetic reactions were carried out between Mn(O2CMe)2 4H2O and 1,7-di-9-anthracene-
1,6-heptadiene-3,5-dione (9Accm), leading to [Mn(9Accm)2(py)2] (1) and [Mn(9Accm)2(4,40-bpy)]n
(2), respectively. In particular, compound 1 was characterized by analytical, spectroscopic techniques
(UV–Vis, fluorescence in the solid state and in solution and EPR), magnetic susceptibility measurements
and X-ray crystallography. Compound 2 was characterized by a number of techniques as elemental analysis,
UV–Vis, fluorescence (in the solid state and in solution), SQUID magnetic susceptibility studies and
EPR. The structure of 1 reveals mononuclear octahedral MnII species incorporating 9Accm and pyridine
while analyses of 2 implies the formation of 1D chain in which MnII centers bound to 9Accm and link with
each other by 4,4-bipyridine molecules. Compound 1 is a mononuclear compound that can act as a potential
building block for the design of novel MnII-curcuminoid species (e.g. compound 2). Both systems
exhibit magnetic properties due to the nature of the metallic source and display fluorescence in the visible
region in the solid state and in solution due to the nature of the ligand 9Accm. Therefore, 1 and 2 are
excellent examples of multifunctional systems at the molecular scale. Even though both systems are very
similar this work depicts the magnetic/fluorescent differences between each other. | |
