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Pairwise selection of guests in a cylindrical molecular capsule of nanometre dimensions

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Abstract

‘Container’ complexes in which a guest molecule is held mechanically within a cage-like host have been known for over a decade1,2. They provide a means to stabilize reactive intermediates3 and to create new forms of stereoisomerism4. Molecular capsules held together by hydrogen bonds are more recent; they are formed reversibly on timescales of milliseconds to hours, long enough formolecular motions5 and even reactions6 to be seen for the encapsulated species. Here we describe the synthesis and characterization of a hydrogen-bonded molecular capsule of nanometre dimensions, which is large enough to encapsulate two different molecules. This allows us to explore the size- and shape-selectivity of the encapsulation process: we see, for example, the exclusive formation of the hetero-guest pair when benzene and p -xylene are both added to a solution. This presumably reflects optimal occupancy of the capsule—two benzene guests leave too much empty space in the interior, and two p -xylene molecules make it too crowded.

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Figure 1: Synthesis and structure of cavitand 1.
Figure 2: 1H NMR spectra of compound 1 in different solvents.
Figure 3: Pairwise selection of guests.
Figure 4: Guest encapsulation experiments.

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Acknowledgements

We thank the Skaggs Research Foundation and the National Institutes of Health for financial support. T.H. is grateful to the Swiss National Science Foundation and the Ciba-Geigy-Jubiläums-Stiftung for the fellowships.

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Correspondence to Julius Rebek Jr.

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Heinz, T., Rudkevich, D. & Rebek, J. Pairwise selection of guests in a cylindrical molecular capsule of nanometre dimensions. Nature 394, 764–766 (1998). https://doi.org/10.1038/29501

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