• Title of article

    Supramolecular variations on a molecular theme: the structural diversity of phosphazenes (RNH) 6P3N3 in the solid state

  • Author/Authors

    Bickley، Jamie F. نويسنده , , Bonar-Law، Richard نويسنده , , Lawson، Gavin T. نويسنده , , Richards، Philip I. نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2003
  • Pages
    -1234
  • From page
    1235
  • To page
    0
  • Abstract
    Herein, we introduce an extremely soft tecton, which interacts viasoft synthons displaying an unprecedented variety of supramolecular architectures in the solid state. Hexakis(organoamino) cyclotriphosphazene derivatives, (RNH)6P3N3, contain a polar core comprising an equatorial belt of three ring nitrogen atoms and six NH functions which is sandwiched between hemispheres of lipophilic substituents R. A range of derivatives equipped with hydrocarbon side chains were synthesised and structurally characterised including R =tert-butyl (1), cyclohexyl (2), iso-propyl (3), benzyl (4), 2-phenylethyl (5), iso-butyl (6), phenyl (7), p-tolyl (8), n-propyl (9), allyl (10), propargyl (11) and methyl (12). The study shows that subtle modifications of the lipophilic periphery lead to considerable changes in the solid-state aggregation pattern. With the exception of 1 all solidstate structures show intermolecular NHN bonding with motifs containing one, two, three and four H-bridges. Supramolecular architectures include monomer (1), dimer (2), cyclic hexamer (3), zigzag chain (4, 6), linear chain (5·thf, 7, 8), double chain (9), graphite-type sheet (10), rectangular grid (11) and hexagonal close-packed sheet (12). The structural variety is due to easy rotation around exocyclic P–N bonds, which allows variable directionalities of all six N–H bonds. M.O. calculations on the gas phase dimer of (H2N)6P3N3 mirror the Hbridging motifs observed in crystal structures of (RNH)6P3N3 derivatives.
  • Journal title
    DALTON TRANSACTIONS
  • Serial Year
    2003
  • Journal title
    DALTON TRANSACTIONS
  • Record number

    64135