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Mechanically axially chiral catenanes and noncanonical mechanically axially chiral rotaxanes

Mechanically axially chiral catenanes and noncanonical mechanically axially chiral rotaxanes
Mechanically axially chiral catenanes and noncanonical mechanically axially chiral rotaxanes

Chirality typically arises in molecules because of a rigidly chiral arrangement of covalently bonded atoms. Less generally appreciated is that chirality can arise when molecules are threaded through one another to create a mechanical bond. For example, when two macrocycles with chemically distinct faces are joined to form a catenane, the structure is chiral, although the rings themselves are not. However, enantiopure mechanically axially chiral catenanes in which the mechanical bond provides the sole source of stereochemistry have not been reported. Here we re-examine the symmetry properties of these molecules and in doing so identify a straightforward route to access them from simple chiral building blocks. Our analysis also led us to identify an analogous but previously unremarked upon rotaxane stereogenic unit, which also yielded to our co-conformational auxiliary approach. With methods to access mechanically axially chiral molecules in hand, their properties and applications can now be explored. [Figure not available: see fulltext.]

1755-4330
1038-1044
Maynard, John R.J.
4e09e766-1294-4056-8bff-4277874f0495
Gallagher, Peter
021185c2-3c1d-4fa9-a36c-c51eb198c3ae
Lozano, David
fa6293ac-336a-4e4c-9e60-0cbeeec32a8e
Butler, Patrick
6e0f7f4a-4cb5-4868-9820-d120c7d905f8
Goldup, Stephen M.
0a93eedd-98bb-42c1-a963-e2815665e937
Maynard, John R.J.
4e09e766-1294-4056-8bff-4277874f0495
Gallagher, Peter
021185c2-3c1d-4fa9-a36c-c51eb198c3ae
Lozano, David
fa6293ac-336a-4e4c-9e60-0cbeeec32a8e
Butler, Patrick
6e0f7f4a-4cb5-4868-9820-d120c7d905f8
Goldup, Stephen M.
0a93eedd-98bb-42c1-a963-e2815665e937

Maynard, John R.J., Gallagher, Peter, Lozano, David, Butler, Patrick and Goldup, Stephen M. (2022) Mechanically axially chiral catenanes and noncanonical mechanically axially chiral rotaxanes. Nature Chemistry, 14, 1038-1044. (doi:10.1038/s41557-022-00973-6).

Record type: Article

Abstract

Chirality typically arises in molecules because of a rigidly chiral arrangement of covalently bonded atoms. Less generally appreciated is that chirality can arise when molecules are threaded through one another to create a mechanical bond. For example, when two macrocycles with chemically distinct faces are joined to form a catenane, the structure is chiral, although the rings themselves are not. However, enantiopure mechanically axially chiral catenanes in which the mechanical bond provides the sole source of stereochemistry have not been reported. Here we re-examine the symmetry properties of these molecules and in doing so identify a straightforward route to access them from simple chiral building blocks. Our analysis also led us to identify an analogous but previously unremarked upon rotaxane stereogenic unit, which also yielded to our co-conformational auxiliary approach. With methods to access mechanically axially chiral molecules in hand, their properties and applications can now be explored. [Figure not available: see fulltext.]

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rvsd_MS_NCHEM_22020277_T_endnote_removed (1) - Accepted Manuscript
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Accepted/In Press date: 12 May 2022
e-pub ahead of print date: 27 June 2022
Published date: September 2022
Additional Information: Funding Information: S.M.G. thanks the ERC (agreement no. 724987) and the Royal Society for a Wolfson Research Fellowship (RSWF\FT\180010). P.B. thanks the University of Southampton for a Presidential Scholarship. P.G. thanks the University of Southampton for funding. Publisher Copyright: © 2022, The Author(s), under exclusive licence to Springer Nature Limited.
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Identifiers

Local EPrints ID: 469421
URI: http://eprints.soton.ac.uk/id/eprint/469421
DOI: doi:10.1038/s41557-022-00973-6
ISSN: 1755-4330
PURE UUID: 0330055d-b27b-4087-85bc-aeecc3ef1ce7
ORCID for Stephen M. Goldup: ORCID iD orcid.org/0000-0003-3781-0464

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Date deposited: 14 Sep 2022 16:48
Last modified: 18 Mar 2024 05:29

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Contributors

Author: John R.J. Maynard
Author: Peter Gallagher
Author: David Lozano
Author: Patrick Butler
Author: Stephen M. Goldup ORCID iD

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