%0 Journal Article %A Cataldo, L. %A Choua, S. %A Berclaz, T. %A Geoffroy, M. %A Mézailles, N. %A Ricard, L. %A Mathey, F. %A Le Floch, P. %T Formation of a phosphorus-phosphorus bond by successive one-electron reductions of a two-phosphinines-containing macrocycle: Crystal structures, EPR and DFT investigations %J Journal of the American Chemical Society %@ 0002-7863 %V 123 %N 27 %P 6654-6661 %D 2001 %U http://pubs.acs.org/doi/abs/10.1021/ja010331r %R 10.1021/ja010331r %U http://archive-ouverte.unige.ch/unige:3220 %X Chemical and electrochemical reductions of the macrocycle 1 lead to the formation of a radical monoanion anion [1]•- whose structure has been studied by EPR in liquid and frozen solutions. In accord with experimental 31P hyperfine tensors, DFT calculations indicate that, in this species, the unpaired electron is mainly localized in a bonding σ P−P orbital. Clearly, a one-electron bond (2.763 Å) was formed between two phosphorus atoms which, in the neutral molecule, were 3.256 Å apart (crystal structure). A subsequent reduction of this radical anion gives rise to the dianion [1]2- which could be crystallized by using, in the presence of cryptand, Na naphthalenide as a reductant agent. As shown by the crystal structure, in [1]2-, the two phosphinine moieties adopt a phosphacyclohexadienyl structure and are linked by a P−P bond whose length (2.305(2) Å) is only slightly longer than a usual P−P bond. When the phosphinine moieties are not incorporated in a macrocycle, no formation of any one-electron P−P bond is observed: thus, one-electron reduction of 3 with Na naphthalenide leads to the EPR spectrum of the ion pair [3]•- Na+; however, at high concentration, these ion pairs dimerize, and, as shown by the crystal structure of [(3)2]2-[{Na(THF)2}2]2+ a P−P bond is formed (2.286(2) Å) between two phosphinine rings which adopt a boat-type conformation, the whole edifice being stabilized by two carbon−sodium−phosphorus bridges.