A variety of metal complexes of 5,10,15-triphenyl-21-monooxa-corrole 4 have been investigated. This monooxa corrole, where one of the pyrrole ring is replaced by a furan moiety, is synthesized by the α-α coupling reaction of 16-oxa tripyrrane and dipyrromethane. The single crystal X-ray structure of 4 indicates only small deviation of the inner-core heteroatoms from planarity and this macrocycle arrange themselves into a columnar structure. Insertion of metals further flattens the corrole framework. Specifically, oxacorrole 4 binds to NiII, CuII, and CoII with the participation of all heteroatoms in the coordination. However, RhI ion binds to only one imino and one amino nitrogen of the macrocycle. The bond angles at the metal center in the NiII and RhI complexes reveal square planar geometry completed by two CO molecules for RhI. The EPR spectra of the paramagnetic that CuII and CoII complexes display significant decreases in the metal hyperfine couplings compared with the corresponding porphyrin complexes. The presence of superhyperfine coupling in the CuII complex suggests delocalization of unpaired electron density into the ligand orbitals. Electrochemical studies reveal easier oxidations and harder reductions relative to the corresponding porphyrin derivatives while, the metallated derivatives did not show their characteristic metal reductions due to the high energy of their LUMO.
|Original language||English (US)|
|Number of pages||10|
|Journal||Chemistry - A European Journal|
|State||Published - Jul 17 2000|
- Core-modified corroles
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