Abstract:
Since good old days, gold has been a precious metal possessed by rich people and now it is used in nanoscience and nanotechnology as nanoparticles and self-assembled monolayers. In addition to its attractive monetary value, highly active cationic gold(I) catalysts have found applications in organic synthesis as well. Recently, it has attracted growing attention due to luminescent properties of Au(I)/Au(III) complexes, e.g., Au(I)-phosphine complex [Au2(dppm)2](BF4)2, that exhibits strong and long
lived yellow phosphorescence. Cyclometallated Au(III)-pyridine complexes have shown interesting photophysical properties. Thus, it is of interest to devise synthetic routes to gold complexes of this bulky bipyridyl ligand (LH, 1). Treatment of (1) with HAuCl4∙xH2O in the presence of AgClO4 afforded the cyclometallated square-planar Au(III) complex [LAuCl]ClO4 (2) containing an anionic terdentate (NNC) ligand. All complexes were characterized by a combination of IR, Mass and NMR spectroscopy. Substitution of chloride ligand of (2) with neutral ligands, 4dimetylamino pyridine (DMAP) and PPh3 afforded [LAu(DMAP)][ClO4]2 (3a) and [LAu(PPh3)][ClO4]2 (3b), respectively. The X-ray crystal structures of (2) and (3a) were determined. [(LH)Au(PPh3)]O2CCF3 (4) was prepared by treating [AuCl(PPh3)] with (1) in the presence of AgO2CCF3.