Abstract
Cationic nickel(II), palladium(II), and copper(II) isocorrole complexes were obtained from linear tetrapyrrolic 2,2′‐bidipyrrin precursors by metal‐templated oxidative macrocyclization reactions using silver(I) tetrafluoroborate as the oxidant in 40–69 % yield. The new compounds were characterized by optical and resonance methods. Two products from overoxidation and attack of nucleophiles were identified by means of single‐crystal X‐ray diffraction, elucidating possible H atom transfer processes during and after the macrocyclization step. The redox behavior was studied by UV/Vis‐spectroelectrochemistry, and the complexes were found to show different stabilities of the electrogenerated radicals, depending on the nature of the central transition metal ion. A one‐electron reduction step at low potential is common for all species, but reversible only in the case of nickel, and an irreversible reaction of a copper derivative was found to produce copper corrole.
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