A High-Affinity and Removable Iminium Dication Guest for Recycling of Cucurbit[7]uril Materials

Two triangular prismatic cages were synthesized by combining a trishydrazide and two bisformyl precursors in strongly acidic water, where the dynamic nature of hydrazone was turned ON. An anionic guest was used as the template to drive the cage formation. Performing counterion exchange removed both the template and the Brønsted acid. The removal of the latter afforded the cages' kinetic inertness by turning OFF the reversibility of hydrazone. The cages can thus be used for recognizing various guests in water without observable degradation, driven by the hydrophobic effect. Upon being accommodated within the cage cavities, an anthracene derivative was protected from UV-stimulated oxidation, which would occur otherwise in the bulk solution without the protection from the host.

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A High-Affinity and Removable Iminium Dication Guest for Recycling of Cucurbit[7]uril Materials

Cited by 2 publications

References 31 publications

A cucurbit[8]uril-based fluorescent probe for the selective detection of pymetrozine

A cucurbit[8]uril-based fluorescent probe for the selective detection of pymetrozine

Self-Assembled Triangular Prismatic Cages with Kinetic Inertness

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