Elucidating dissociation activation energies in host-guest assemblies featuring fast exchange dynamics

The ability to mediate the kinetic properties and dissociation activation energies ( E a ) of bound guests by controlling the characteristics of "supramolecular lids" in host-guest molecular systems is essential for both their design and performance. While the synthesis of such systems is...

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Bibliographic Details
Published in:Chemical science (Cambridge) 2020-12, Vol.12 (3), p.865-871
Main Authors: Shusterman-Krush, Ronit, Grimm, Laura, Avram, Liat, Biedermann, Frank, Bar-Shir, Amnon
Format: Article
Language:English
Subjects:
Activation energy
Assemblies
Chemistry
NMR
Nuclear magnetic resonance
Parameters
Supramolecular compounds
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Summary:The ability to mediate the kinetic properties and dissociation activation energies ( E a ) of bound guests by controlling the characteristics of "supramolecular lids" in host-guest molecular systems is essential for both their design and performance. While the synthesis of such systems is well advanced, the experimental quantification of their kinetic parameters, particularly in systems experiencing fast association and dissociation dynamics, has been very difficult or impossible with the established methods at hand. Here, we demonstrate the utility of the NMR-based guest exchange saturation transfer (GEST) approach for quantifying the dissociation exchange rates ( k out ) and activation energy ( E a,out ) in host-guest systems featuring fast dissociation dynamics. Our assessment of the effect of different monovalent cations on the extracted E a,out in cucurbit[7]uril:guest systems with very fast k out highlights their role as "supramolecular lids" in mediating a guest's dissociation E a . We envision that GEST could be further extended to study kinetic parameters in other supramolecular systems characterized by fast kinetic properties and to design novel switchable host-guest assemblies. GEST-NMR is utilized for quantifying the dissociation activation energy ( E a,out ) in host-guest systems featuring fast dissociation dynamics.
ISSN:2041-6520
2041-6539
DOI:10.1039/d0sc05666a