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We investigate here the effect of electronic communication between two Mn(iii) porphyrin π-cation radicals, connected covalently through an ethylene bridge, which exhibit significant electronic communication resulting in strong antiferromagnetic coupling… Click to show full abstract
We investigate here the effect of electronic communication between two Mn(iii) porphyrin π-cation radicals, connected covalently through an ethylene bridge, which exhibit significant electronic communication resulting in strong antiferromagnetic coupling predominantly between two porphyrin radical spins. This, however, is in sharp contrast to its diiron(iii) analog where the porphyrin π-cation radical undergoes stronger antiferromagnetic coupling predominantly with the corresponding Fe(iii) unpaired spin. Such a difference in the spin coupling model has also influenced their reactivity. While the dimanganese(iii) dication diradical complex quickly transforms into a μ-hydroxo dimanganese(iii) porphyrin-oxophlorin heterodimer upon addition of a base, its diiron(iii) analog remains very stable.
Journal Title: Chemical communications
Year Published: 2019
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