Herein we report an adaptive, achiral
trithiourea molecular cage
and its conformational and stereodynamics toward tricarboxylate anion
binding. The cage was readily synthesized in four steps with a 44%
yield for the irreversible cage-forming reaction. It possesses a flexible
conformation and strongly binds 1,3,5-benzene tricarboxylate by forming
a sandwich-like inclusion complex, with an affinity up to 106 M–1 in acetonitrile. Upon binding, the cage is
locked in a twisted helical conformation. By incorporation of three
chiral arms on the guest, a gear-like complex dominant in one given
helical sense was produced. Due to the steric crowding in the helical
grooves, a small change of methyl to ethyl on guest caused a striking
difference on binding and chiral induction. The system thus represents
a rare example of chiral induction on a flexible, achiral host and
provides a decoupled model that the generation of a racemate and following
chiral discrimination can be individually probed.
Xenon binding has attracted interest due to the potential for xenon separation and emerging applications in magnetic resonance imaging. Compared to their covalent counterparts, assembled hosts that are able to effectively bind xenon are rare. Here, we report a tight yet soft chiral macrocycle dimeric capsule for efficient and adaptive xenon binding in both crystal form and solution. The chiral bisurea-bisthiourea macrocycle can be easily synthesized in multi-gram scale. Through assembly, the flexible macrocycles are locked in a bowl-shaped conformation and buckled to each other, wrapping up a tight, completely sealed yet adjustable cavity suitable for xenon, with a very high affinity for an assembled host. A slow-exchange process and drastic spectral changes are observed in both 1H and 129Xe NMR. With the easy synthesis, modification and reversible characteristics, we believe the robust yet adaptive assembly system may find applications in xenon sequestration and magnetic resonance imaging-based biosensing.
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