Pairing of Propellers: Dimerization of Octahedral
Ruthenium(II) and Osmium(II) Complexes of Eilatin via π−π
Stacking Featuring Heterochiral Recognition
posted on 2002-04-19, 00:00authored byDalia Gut, Amira Rudi, Jacob Kopilov, Israel Goldberg, Moshe Kol
Five octahedral eilatin complexes of the type [M(L−L)2(eilatin)]2+ (M = Ru, Os; L−L = bipyridyl-type ligands) were synthesized, and their dimerization via π−π stacking was studied by crystallography
and 1H NMR techniques. The X-ray structures of these racemic complexes were solved and revealed that
the eilatin complexes are organized as discrete dimers in which the eilatin residues of each complex are
stacked in centrosymmetric packing. Chemical shift dependence on concentration in the 1H NMR spectra
support fast dimer−monomer equilibrium, and the structures of the dimers in acetonitrile solution are
proposed to be analogous to their solid-state structures. Dimerization constants in acetonitrile were measured
for the five racemic eilatin complexes that exhibit different structural parameters, as well as for the two
enantiomeric forms of one of these complexes. They were found to be independent of the metal (Ru vs
Os), strongly dependent on the steric effects introduced by the L−L ligands (2,2‘-bipyridine, 1,10-phenanthroline, 2,9-dimethyl-1,10-phenanthroline, and 2,2‘-biquinoline), and dependent on the optical purity
of the complexes. A clear preference for heterochiral over homochiral dimer formation was demonstrated.
This is the first report of chiral recognition in solution, exhibited by simple chemical systems held solely by
π-stacking interactions.