Publications by authors named "Alex Inthasot"
In 1987, Pedersen, Cram, and Lehn were awarded the Nobel Prize in Chemistry to honor their achievements in, among other things, the selective recognition of alkali metal ions by synthetic hosts. Almost three decades later, the 2016 Nobel Prize went to Stoddart, Sauvage, and Feringa for the development of artificial molecular machines, in which interlocked molecules play a significant role. Surprisingly, although many rotaxane- and catenane-based molecular machines have been constructed using various templating approaches, alkali metal ions, which are good templates for crown ether synthesis, have only rarely been applied as templates for the assembly of these interlocked molecules.
View Article and Find Full Text PDFA water-soluble calix[6]arene-based azacryptand was synthesized. The corresponding tren [tris(2-aminoethyl)amine] cap grafted at the small rim coordinates strongly a copper(II) ion over a wide range of pH. The host-guest properties of the complex were explored by EPR spectroscopy.
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- - Using a process called "clipping," researchers created rotaxanes with unique gelation abilities that respond to light.
- - When exposed to UV light, the macrocyclic parts of these rotaxanes break apart, releasing gel-forming agents into the solution.
- - This quick gelation allows for targeted areas of gel formation in the solution, enabling the possibility of creating patterns through light exposure.
The Huisgen thermal reaction between an organic azide and an acetylene was employed for the selective monofunctionalization of a X6 -azacryptand ligand bearing a tren coordinating unit [X6 stands for calix[6]arene and tren for tris(2-aminoethyl)amine]. Supramolecular assistance, originating from the formation of a host-guest inclusion complex between the reactants, greatly accelerates the reaction while self-inhibition affords a remarkable selectivity. The new ligand possesses a single amino-leg appended at the large rim of the calixarene core and the corresponding Zn(2+) complex was characterized both in solution and in the solid state.
View Article and Find Full Text PDFWater is a unique solvent and the design of selective artificial hosts that can efficiently work in an aqueous medium is a challenging task. It is known that the calix[6]tren zinc complex can recognize neutral guests in organic solvents. This complex was incorporated into dodecylphosphocholine micelles (DPC) and studied by NMR.
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- The selective functionalization of macrocyclic receptors is challenging due to the need to modify only one functional group among many identical ones.
- Recent research demonstrates the application of a calix[6]arene-based Zn complex’s host-guest properties to allow for its selective monofunctionalization.
- The study extends this method to a new calix[6]arene receptor with different interaction patterns, successfully achieving selective functionalization through ionic interactions rather than just metal-ligand interactions, suggesting broader applications for this methodology in molecular receptor modification.