Abstract:
All carbon hexaarylbenzene derivatives are used as simple building blocks for the
preparation of hexabenzocoronene or superbenzene derivatives (I) which show
interesting photo-physical and electrochemical properties. Cyclodehydrogenation
of tetraaryldipyrimidyl benzene containing four nitrogen atoms at the periphery
lead to the discovery of fully-cyclized tetraazasuperbenzene (II) and half-cyclized
tetraaza superbenzene (III). Ruthenium(II) complexes of the type
[Ru(bpy)2(II)][PF6]2 and [Ru(bpy)2(III)][PF6]2 showed unique optical and
electrochemical properties. Re(I) carbonyl complexes are found in applications of
supramolecular chemistry such as carbon dioxide reduction and sensors. In here,
we report the syntheses of some rhenium(I) complexes of the type (IV) containing
N,N-donor ligands : tetra-substituted-1,12-diazatriphenylene, tetraphenyl-2,2’-
bipyridine, (II), (III) and 4-bromophenyl-terpyridine. Seven fac-chlorotricarbonylrhenium(I) complexes of the type (IV) were prepared
in hot benzene or chloroform by reacting [ReCl(CO)5] with an appropriate
N,N-donor ligand and the products were isolated in good yields as coloured solids.
Mass spectral data indicated the presence of M+, [M-Cl]+ or [M+Na]+ ion. As
expected, IR spectra showed three strong IR bands around 2020, 1900 and 1880
cm
for carbonyl ligands. IR, 1H-NMR and 13C-NMR data suggested these
complexes to have the fac-geometry. (Please browse the content of attached document for the illustrations of abstract.)
