552272-74-9Relevant articles and documents
Stereoselective association of binuclear metallacycles in coordination polymers
Khlobystov, Andrei N.,Brett, Matthew T.,Blake, Alexander J.,Champness, Neil R.,Gill, Peter M. W.,O'Neill, Darragh P.,Teat, Simon J.,Wilson, Claire,Schroeder, Martin
, p. 6753 - 6761 (2003)
A series of structurally related binuclear metallacycles Cd(NO3)2L]2, where L is an angular exobidentate ligand, have been synthesized. Each metallacycle contains two coordinatively unsaturated, chiral metal centers within a single molecule, and the assembly of these metallacycles into polymeric framework structures has been studied systematically for the first time. Stereoselective homochiral association of [Cd(NO3)2L]2 leads to the formation of helical coordination polymers, whereas meso type association results in nonhelical chain structures. The type of stereoselective aggregation depends on the conditions of self-assembly as well as on ligand functionality. Both helical and nonhelical polymeric complexes have been isolated for the metallacycle [Cd(NO3)2(2,4′-pyacph)]2 (2,4′-pyacph = 2,4′-(4-ethynylphenyl)bipyridyl). Homochiral association results in the formation of helical [Cd(NO3)]∞ chains which link the binuclear [Cd(NO3)2(2,4′-pyacph)]2 metallacycles into racemic two-dimensional sheets which contain both P and M [Cd(NO3)]∞ helices. In contrast, meso-association leads to the formation of nonhelical one-dimensional chains. It is shown that the product of homochiral association is predominately formed at room temperature and that of meso-association is generated at elevated temperatures. Thus, it may be concluded that the homochiral association appears to be energetically less favorable than the meso-association, a conclusion that has been confirmed by theoretical calculations of the crystal lattice energy. Several high-yield syntheses of bipyridyl-type ligands used for metallacyclic assembly are also reported.