Abstract
5,10,15,20-Tetrakis(2 ′- and 3 ′-thienyl)porphyrins [H 2T(2 ′-Thio)P and H 2T(3 ′-Thio)P] and their metal [Zn(II) and Cu(II)] complexes were examined by electrochemical redox and axial ligation properties. A large anodic shift (100–150 mV) in reduction potentials was observed for MT(2 ′-Thio)Ps relative to MTPPs or MT(3 ′-Thio)Ps. MT(2 ′-Thio)Ps exhibited unusual redox behaviour and follows the trend in oxidation; CuT(2 ′-Thio)P>H 2T(2 ′-Thio)P⩾ZnT(2 ′-Thio)P in contrast to their corresponding MTPPs, H 2TPP>CuTPP>ZnTPP. It is reflected in the enhanced equilibrium constants (>60%) for the ligation of nitrogenous bases with ZnT(2 ′-Thio)P when compared to ZnTPP. This is interpreted in terms of increased electron deficient nature of the ZnT(2 ′-Thio)P in contrast to Zn(3 ′-Thio)P or ZnTPP.
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