923575-16-0Relevant articles and documents
Ligand structural effects on Cu2S2 bonding and reactivity in side-on disulfido-bridged dicopper complexes
Brown, Eric C.,Bar-Nahum, Itsik,York, John T.,Aboelella, Nermeen W.,Tolman, William B.
, p. 486 - 496 (2007)
To assess supporting ligand effects on S-S bond activation, a series of [Cu2(μ-η2:η2-S2)] 2+ complexes supported by various β-diketiminate or anilido-imine ligands (L) were synthesized via the reaction of Cu(I) precursors LCu(CH3CN) with S8. For the cases where L = β-diketiminate, the syntheses were complicated by formation of clusters [Cu(SR)]4, where SR represents the ligand functionalized by sulfur at the central methine position. The [CU2(μ-η2: η2-S2)]2+ products were characterized by X-ray crystallography and electronic absorption and resonance Raman spectroscopy. Correlations among the Cu-S, Cu-Cu, and S-S distances and the ν(S-S) values were observed and interpreted within the framework of a previously described bonding picture (Chen, P.; Fujisawa, K.; Helton, M. E.; Karlin, K. D.; Solomon, E. I. J. Am. Chem. Soc. 2003, 125, 6394). Comparison of these data to those for other relevant species revealed a remarkable degree of S-S bond activation in the compounds supported by the β-diketiminate and anilido-imine ligands, which through strong electron donation increase backbonding from the copper ions into the S-S σ* orbital and cause S-S bond weakening. Reactions of one of the complexes supported by an anilido-imine ligand with PPh3 and xylyl isocyanide were explored, revealing facile transfer of sulfur to PPh3 but only displacement of sulfur to yield a LCu(I)-CNAr (Ar = xylyl) complex with the isocyanide.
