Investigations into the assembly behaviour of a 'rigidified': P-carboxylatocalix[4]arene

The p-carboxylatocalix[4]arenes have been shown to be versatile supramolecular building blocks capable of forming a range of bi-layers, capsules and nanoscale tubules in the solid state. Here we report the synthesis of a new 'rigidified' analogue, as well as investigations into its self-assembly and related coordination chemistry. These behaviours are reminiscent of other p-carboxylatocalix[4]arenes despite the presence of rigidifying groups at the lower-rim, suggesting that this building block may be further exploited in the assembly of a range of new metal-organic cages and coordination polymers

From carbohydrates to the discovery of prounced heteroatomic effects on anionically accelerated [3,3]-sigmatropic rearrangements

[[abstract]]The (Z)-(iodovinyl)oxetane 12 was prepared from D-glucose and the acyclic analog 18 was obtained from D-mannitol. Following the generation of their lithium derivatives by halogen−metal exchange, coupling to the enantiopure vinyl-substituted norbornanones 20, 23, and 29 proceeded exclusively via endo attack to deliver the targeted exo-carbinols. The anionic oxy-Cope rearrangements of 21 and 24 were seen to differ appreciably in rate. While the sulfur derivative 24 experiences [3,3] sigmatropy with a half-life of less than a minute at −78 °C, its oxygen analogue 21 proved unreactive below −20 °C under entirely comparable conditions. This phenomenon is critically examined in a synthetic context involving 26 and 30, where the heavily functionalized acyclic side chain involved previously is supplanted by an oxetane assembly. In the sulfur example, isomerization occurs very rapidly as before with 100% transfer of chirality. The kinetic response of vinyl ether 26 now proved to be entirely comparable. However, the pathway followed in this instance was intramolecular nucleophilic attack by the “naked” alkoxide at the less substituted C−O bond of the oxetane with ring cleavage and formation of alcohol 28. The global findings provide a glimpse of the subtle way in which [3,3]-sigmatropic transpositions can be modulated by heteroatomic substitution.[[notice]]補正完

Recognition of Amides By New Rigid Calix[4]arene-based Cavitands

The synthesis of new hosts specifically designed for the recognition of amides, characterized by two binding regions:  a rigid calix[4]arene cavity and a sidearm, inserted at its rim, able to form strong hydrogen bonds, is described. The binding abilities of the new receptors toward amides of general structure R1CONR2R3 have been investigated in CDCl3 solution by 1H NMR spectroscopy. When the additional binding site is the N-phenylureido group spaced by a methylene unit from the apolar cavity, binding constants up to 756 M-1 were measured. Neither the two separate potential binding sites, nor the model host, where the calix[4]arene skeleton is flexible show detectable binding ability toward the series of guests examined. The rigidity of the calix[4]arene apolar cavity is the key control element in determining the efficiency of these molecular recognition processes. The presence of NH groups in the guest controls the efficiency and selectivity of binding