Self-Assembly of a Giant Molecular Solomon Link from 30 Subcomponents
The synthesis of topologically complex structures, such as links and knots, is one of the current challenges in supramolecular chemistry. The so‐called Solomon link consists of two doubly interlocked rings. Despite being a rather simple link from a topological point of view, only few molecular versi...
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Veröffentlicht in: | Angewandte Chemie International Edition 2014-10, Vol.53 (42), p.11261-11265 |
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Sprache: | eng |
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Zusammenfassung: | The synthesis of topologically complex structures, such as links and knots, is one of the current challenges in supramolecular chemistry. The so‐called Solomon link consists of two doubly interlocked rings. Despite being a rather simple link from a topological point of view, only few molecular versions of this link have been described so far. Here, we report the quantitative synthesis of a giant molecular Solomon link from 30 subcomponents. The highly charged structure is formed by assembly of 12 cis‐blocked Pt2+ complexes, six Cu+ ions, and 12 rigid N‐donor ligands. Each of the two interlocked rings is composed of six repeating Pt(ligand) units, while the six Cu+ ions connect the two rings. With a molecular weight of nearly 12 kDa and a diameter of 44.2 Å, this complex is the largest non‐DNA‐based Solomon link described so far. Furthermore, it represents a molecular version of a “stick link”.
Linking with sticks: A molecular Solomon link is formed by assembly of twelve cis‐blocked Pt2+ complexes, six Cu+ ions, and twelve rigid N‐donor ligands. The complex represents a molecular version of a “stick link”. |
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ISSN: | 1433-7851 1521-3773 |
DOI: | 10.1002/anie.201407144 |