Cis and trans isomers of ferrocene-based donor-acceptor assemblies, Fc-C(I)=CH(I), Fc-C(I)=CH(CN), and Fc-C(CN)=CH(CN) (Fc is ferrocene), along with the Fc-C(CN)=C(CN)2 complex have been prepared and characterized by 1H, 13C, gHMQC, and gHMBC NMR spectra, IR, UV-vis, and MCD spectroscopy methods, as well as elemental analyses. The oxidation potentials, investigated by cyclic voltammetry, of all donor-acceptor assemblies are in agreement with the electron-acceptor strength of the substituents attached to the ferrocene core. X-ray crystallography studies of cis and trans isomers of Fc-C(I)=CH(CN) and Fc-C(CN)=CH(CN) reveal a significant rotational flexibility of the cyanovinyl group, which was explained on the basis of semiempirical PM3 calculations. Electronic structures and solvatochromic properties of all complexes were investigated by UV-vis spectroscopy, density functional theory (DFT), time-dependent DFT (TDDFT), and polarized continuum model (PCM) TDDFT approaches. The calculated vertical excitation energies and magnitudes of solvatochromic effect are consistent with the experimental data and clearly suggest the dominance of metal-to-ligand charge-transfer bands in the visible region of the UV-vis spectra for all complexes.
Magnesium 2(3),7(8),12(13),17(18)-tetraferrocenyl-5,10,15,20-tetraazaporphyrin (3), and magnesium 2(3),7(8),12(13),17(18)-tetracyano-3(2),8(7),13(12),18(17)-tetraferrocenyl-5,10,15,20-tetraazaporphyrin (4) complexes were prepared using template condensation reaction between magnesium butoxide and (Z)-dicyanovinylferrocene (1) and tricyanovinylferrocene (2), respectively. Redox and unusual optical properties of macrocyclic compounds 3 and 4 were investigated in details using UV-vis, MCD, electro-, and spectroelectrochemical methods as well as DFT and TDDFT calculations. It was shown that the HOMO in both compounds resembles Goutermans' a1u orbital (D4h symmetry), which is different from meso-ferrocenyl containing porphyrins. In both macrocycles 3 and 4 overlapping oxidation waves for ferrocene substituents were observed in electrochemical and spectroelectrochemical experiments. Electrochemically observed oxidation waves are rather broad because of the presence of positional isomers and span only ~300 mV range in DCM/0.05 M TBAF system. Based on the excellent agreement between experimental UV-vis spectra and TDDFT predicted excitation energies, it was suggested that the low-energy NIR and visible regions are predominantly composed by the MLCT transitions with a significant π–π* mixing.
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