A nonionic amphiphilic calix[4]pyrrole compound was synthesized and used to prepare stable micelles in water. These micelles were then shown to effectively encapsulate and release doxorubicin under acidic and basic medium.
In this report, synthesis and ion-transport studies in two-walled calix[4]pyrroles have been revealed.
The ion-pair recognition ability of octamethylcalix[4]pyrrole is used to construct supramolecular multicomponent single and polymeric assemblies that can form pseudorotaxanes with pillar[5]arene.
A series of tetrahedral molecular cages were synthesized via imine condensation reactions. Each face features a central triazine core, which imparts an electron-deficient cavity that facilitates anion encapsulation through anion–π interactions.
The capture and storage of bromine by advanced functional porous materials have garnered significant attention in recent years due to its widespread industrial applications as well as its environmental impact as a pollutant.