THE INFLUENCE OF THE COMPLEXATION OF SODIUM AND LITHIUM TRIFLATE ON THE SELF-ASSEMBLY OF TUBULAR-SUPRAMOLECULAR ARCHITECTURES DISPLAYING A COLUMNAR MESOPHASE BASED ON TAPER-SHAPED MONOESTERS OF OLIGOETHYLENE OXIDE WITH 3,4,5-TRIS[P-(N-DODECAN-1-YLOXY)BENZYLOXY]BENZOIC ACID AND OF THEIR POLYMETHACRYLATES

The monoesters of mono-(1a), di-(1b), tri-(1c) and tetra-(1d) ethylene glycol with 3,4,5-tris[p-(n-dodecan-1-yloxy)benzyloxy]benzoic acid (1 ), the polymethacrylates derived from them (2) and the complexes of bo th 1 and 2 with LiCF3SO3 and NaCF3SO3 self-assemble into cylindrical s upra-molecular architectures which exhibit a hexagonal columnar (PHI(h )) mesophase. The generation of the PHI(h) mesophase depends on the st abilization of this assembly by endo-recognition in the core of the cy linder (H-bonding and ionic interactions) and exo-recognition that occ urs between the tapered groups and also between the cylinders (i.e., t he hexagonal arrangement of the columns). The low molecular weight com pounds 1 are able to complex more salt in the PHI(h) mesophase and hav e larger increases in PHI(h)-isotropic transition temperature (T(PHIh- i)) per increase in salt concentration than the corresponding polymeth ylcrylates 2 derived from them. Molecular modelling appears to indicat e that positional and conformational restrictions imposed by both the tapered side groups and the polymer backbone are responsible for these results. Both the polymers and the low molar mass compounds have thei r T(PHIh-i) shifted to lower temperatures and allow more LiCF3SO3 to b e complexed with the increase in the number of oxyethylene segments pr esent in the flexible spacer. A comparison of the difference in the ef fectiveness of the Li cation versus the Na cation in providing increas ed stabilization of the PHI(h) mesophase does not show any significant differences between the two cations.