Ion Selectivity in Nonpolymeric Thermosensitive Systems Induced by Water-Attenuated Supramolecular Recognition.

The chemistry of aqueous salt solutions is rich with ambiguities, especially in stimuli-responsive supramolecular systems. Rational use of ion specificity to design supramolecular responsive materials, however, remains a challenging task. In this work, a low-molecular-weight supramolecular system was developed that was used to reveal the underlying systematic relationship between ions, water, and solutes. By utilizing these water-attenuated supramolecular forces (with Ka only ca. 30 m-1 ), an alternative concept for fabricating an aqueous responsive system in ionic medium was demonstrated. This work not only provides mechanistic insight into the underdeveloped role of topology in ion specificity upon noncharged polar surfaces, but also demonstrates the feasibility of utilizing weak supramolecular approaches to control the thermoresponsiveness.