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Abstract
Topologically complex molecules are poised to play a crucial role in the future of materials science, providing control over entanglement at the smallest possible scale. Discovery of new topological constructs and robust strategies for their synthesis are central to expanding the field. Here a new topological class of molecules, named perplexanes, are identified that contain an unusual combination of interlocking and interweaving that defies traditional topological descriptors. Two nanocarbon perplexanes are rationally synthesized in high yield using reversible zirconocene coupling of alkynes. This dynamic C-C bond formation facilitates entanglement under thermodynamic control, enabling the use of simple precursors without the need for strong templating or preassembly. This provides a new toolkit for assembling topologically complex nanocarbons that should be generalizable to a wide range of other topologies.
Supplementary materials
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Supporting Information
Description
All materials, methods, and supporting experiments for the findings in the main text.
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Title
1-Zr.cif
Description
Crystallographic Information Framework File for 1-Zr
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Title
2-Zr.cif
Description
Crystallographic Information Framework File for 2-Zr
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Title
3-Zr.cif
Description
Crystallographic Information Framework File for 3-Zr
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