Herein, we describe a new family of tris chelate homoleptic Ru (II) complexes, [Ru(N^N)3]2+, where the role of the diimineâtype ligands (N^N) was fulfilled by 2âpyridyl (PTZ) or 2âquinolyl tetrazole ( Show more
Herein, we describe a new family of tris chelate homoleptic Ru (II) complexes, [Ru(N^N)3]2+, where the role of the diimineâtype ligands (N^N) was fulfilled by 2âpyridyl (PTZ) or 2âquinolyl tetrazole (QTZ) derivatives decorated with various alkyl substituents at the Nâ2 position of the tetrazole ring. The new Ru (II) complexes with general formula [Ru (PTZâR)3]2+ and [Ru (QTZâR)3]2+, were obtained as mixtures of facial (fac) and meridional (mer) isomers, as suggested by NMR (1H, 13C) experiments, and confirmed in the case of merâ[Ru (QTZâMe)3]2+, by Xâray crystallography. The photophysical behavior of the tetrazoleâbased [Ru(N^N)3]2+ type species was investigated by UVâvis absorption spectroscopy, providing trends typical of polypyridyl Ru (II) complexes. The new homoleptic complexes fac/merâ[Ru (PTZâR)3]2+ and fac/merâ[Ru (QTZâR)3]2+ have been assessed for any eventual antimicrobial activity towards two different bacteria such as Gramânegative Escherichia coli and Gramâpositive Deinococcus radiodurans. Whereas being inactive toward E. coli, the response of agar disks diffusion tests suggested that some of the new fac/mer Ru (II) complexes could inhibit the growth of D. radiodurans. This effect was further investigated by determining the growth kinetics in liquid medium of D. radiodurans exposed to the fac/merâ[Ru (PTZâR)3]2+ and fac/merâ[Ru (QTZâR)3]2+ complexes at different concentrations. The outcome of these experiments highlighted that the turnâon of the growth inhibitory effect took place as the linear hexyl chain was appended to the PTZ or QTZ scaffold, suggesting also how the inhibitory activity appeared more pronouncedly exerted by the facial isomers facâ[Ru (PTZâHex)3]2+ and facâ[Ru (QTZâHex)3]2+ (MIC = ca. 3.0 Îźg/ml) with respect to the corresponding meridional isomers (MIC = ca. 6.0 Îźg/ml). Show less
Ten manganese(I) tricarbonyl diimine complexes bound to variably functionalised 5âarylâtetrazolato ligands were prepared, and their photochemical properties were investigated. Upon exposure to light a Show more
Ten manganese(I) tricarbonyl diimine complexes bound to variably functionalised 5âarylâtetrazolato ligands were prepared, and their photochemical properties were investigated. Upon exposure to light at 365 nm, each complex decomposed to its free diimine and tetrazolato ligands, simultaneously dissociating three CO ligands, as evidenced by changes in the IR spectra of the irradiated complexes over time. The antiâbacterial properties of one of these complexes were tested against Escherichia coli. While the complex displayed no effect on the bacterial growth in the dark, preâirradiated solutions inhibited bacterial growth. Comparative studies revealed that the antibacterial properties originate from the presence of free 1,10âphenanthroline. Show less