Molecular structures, and optical and magnetic properties of free-base tetrapyrazinoporphyrazine in various reduction states

Abstract

Reduction of free-base tetrapyrazinoporphyrazine (H₂TPyzPz) under different experimental conditions allowed us to obtain radical anion salt {cryptand[2.2.2](K⁺)}₂(H₂TPyzPz˙⁻)₂·3C₆H₄Cl₂ (1), and dianion salts {cryptand[2.2.2](K⁺)}₂(H₂TPyzPz²⁻)·C₆H₄Cl₂ (2) and {cryptand[2.2.2](K⁺)}₂(H₂TPyzPz²⁻)·[CpFe(CO)₂]₂·3C₆H₄Cl₂ (3) in the form of single crystals. The molecular structure, and optical and magnetic properties of free-base tetrapyrazinoporphyrazine in various reduction states were studied for the first time. Reduction of the macrocycle is accompanied by the appearance of alternation of the C–N_meso bonds, blue shift of both the Soret and Q-bands and the appearance of new bands in the NIR range. Salt 1 contained paramagnetic H₂TPyzPz˙⁻ radical anions half of which formed face-to-face type dimers with very effective π–π interaction, whereas the rest were magnetically isolated from the other H₂TPyzPz˙⁻ radical anions. Strong antiferromagnetic coupling of spins with a magnetic exchange interaction of J/k_B = −140 K was observed in these dimers. In 2 and 3, diamagnetic dianions H₂TPyzPz²⁻ were completely isolated.