Tetramine aspect ratio and flexibility determine framework symmetry for Zn8L6 
self‐assembled structures

Davies, Jack A.; Tarzia, Andrew; Ronson, Tanya K.; Auras, Florian; Jelfs, Kim E.; Nitschke, Jonathan R.

doi:10.1002/anie.202217987

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Tetramine aspect ratio and flexibility determine framework symmetry for Zn₈L₆ self‐assembled structures

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Auras, Florian
Department of Synthetic Materials and Functional Devices (SMFD), Max Planck Institute of Microstructure Physics, Max Planck Society;

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https://doi.org/10.1002/anie.202217987
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Davies, J. A., Tarzia, A., Ronson, T. K., Auras, F., Jelfs, K. E., & Nitschke, J. R. (2023). Tetramine aspect ratio and flexibility determine framework symmetry for Zn₈L₆ self‐assembled structures. Angewandte Chemie International Edition, 62(10): e202217987. doi:10.1002/anie.202217987.

Cite as: https://hdl.handle.net/21.11116/0000-000C-B74A-3

Abstract

We derive design principles for the assembly of rectangular tetramines into Zn₈L₆ pseudo-cubic coordination cages. Because of the rectangular, as opposed to square, geometry of the ligand panels, and the possibility of either Δ or Λ handedness of each metal center at the eight corners of the pseudo-cube, many different cage diastereomers are possible. Each of the six tetra-aniline subcomponents investigated in this work assembled with zinc(II) and 2-formylpyridine in acetonitrile into a single Zn₈L₆ pseudo-cube diastereomer, however. Each product corresponded to one of four diastereomeric configurations, with T, T_h, S₆ or D₃ symmetry. The preferred diastereomer for a given tetra-aniline subcomponent was shown to be dependent on its aspect ratio and conformational flexibility. Analysis of computationally modeled individual faces or whole pseudo-cubes provided insight as to why the observed diastereomers were favored.