Abstract
Planar perylene derivatives form macrocyclic dimers and concatenated dimer-dimer rings under the action of molecular self-assembly. If this underpinning principle is true, highly twisted perylene derivatives should be more frustrated toward formation of multimeric cyclic compounds such as macrocyclic dimers and concatenated dimer-dimers because of perturbation resulting from intermolecular pi-pi stacking. Indeed, 1,6,7,12- tetraphenoxy-substituted perylene is highly twisted and undergoes unimolecular cyclization rather than bimolecular or multimolecular cyclization. The resulting monocyclic monomer exhibits interesting conformation switching from one chiral structure (left-handedness) to another chiral structure (right-handedness) at room temperature. NMR studies of conformational dynamics reveal that such configuration change between the two enantiomers can be frozen at low temperature (-45 degrees C). An activation enthalpy barrier of 13.4 +/- 0.5 kcal.mol-1 for twisting the perylene plane in order to convert from one enantiomer to the other has been found.
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