Size compatibility and concentration dependent supramolecular host–guest interactions at interfaces.

Park, Jintae; Park, Jinwoo; Lee, Jinhoon; Lim, Chanoong; Lee, Dong Woog

The quantification of supramolecular host–guest interactions is important for finely modulating supramolecular systems. Previously, most host–guest interactions quantified using force spectroscopic techniques have been reported in force units. However, accurately evaluating the adhesion energies of host–guest pairs remains challenging. Herein, using a surface forces apparatus, we directly quantify the interaction energies between cyclodextrin (CD)-modified surfaces and ditopic adamantane (DAd) molecules in water as a function of the DAd concentration and the CD cavity size. The adhesion energy of the β-CD–DAd complex drastically increased with increasing DAd concentration and reached saturation. Moreover, the molecular adhesion energy of a single host–guest inclusion complex was evaluated to be ~9.51 kBT. This approach has potential for quantifying fundamental information toward furthering the understanding of supramolecular chemistry and its applications, such as molecular actuators, underwater adhesives, and biosensors, which require precise tuning of specific host–guest interactions. Quantification of supramolecular host–guest interactions is important for modulating supramolecular systems but accurately evaluating the adhesion energies of host–guest pairs remains challenging. Here, the authors directly quantify the interaction energies between cyclodextrin modified surfaces and ditopic adamantane using a surface force apparatus.

CYCLODEXTRINS; SURFACE forces; SUPRAMOLECULAR chemistry; ADAMANTANE; CONCENTRATION functions

Nature Communications, 2022, Vol 13, Issue 1, p1

2041-1723

Academic Journal

10.1038/s41467-021-27659-w