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Conformational analysis of 1,3-difluorinated alkanes

Conformational analysis of 1,3-difluorinated alkanes
Conformational analysis of 1,3-difluorinated alkanes

Fluorine substitution can have a profound impact on molecular conformation. Here, we present a detailed conformational analysis of how the 1,3-difluoropropylene motif (-CHF-CH2-CHF-) determines the conformational profiles of 1,3-difluoropropane, anti- and syn-2,4-difluoropentane, and anti- and syn-3,5-difluoroheptane. It is shown that the 1,3-difluoropropylene motif strongly influences alkane chain conformation, with a significant dependence on the polarity of the medium. The conformational effect of 1,3-fluorination is magnified upon chain extension, which contrasts with vicinal difluorination. Experimental evidence was obtained from NMR analysis, where polynomial complexity scaling simulation algorithms were necessary to enable J-coupling extraction from the strong second-order spectra, particularly for the large 16-spin systems of the difluorinated heptanes. These results improve our understanding of the conformational control toolkit for aliphatic chains, yield simple rules for conformation population analysis, and demonstrate quantum mechanical time-domain NMR simulations for liquid state systems with large numbers of strongly coupled spins.

0022-3263
8789–8803
Poole, William G.
e7b65034-0877-407b-9f5f-dd47f70f8f27
Peron, Florent
8439573a-497c-46cf-9dff-6df489b63364
Fox, Stephen J.
a8957e8a-3086-4917-8575-eb0f9e8604cf
Wells, Neil
86312185-007b-495b-86da-4e2e5b9b8025
Skylaris, Chris Kriton
8f593d13-3ace-4558-ba08-04e48211af61
Essex, Jonathan W.
1f409cfe-6ba4-42e2-a0ab-a931826314b5
Kuprov, Ilya
bb07f28a-5038-4524-8146-e3fc8344c065
Linclau, Bruno
19b9cacd-b8e8-4c65-af36-6352cade84ba
Poole, William G.
e7b65034-0877-407b-9f5f-dd47f70f8f27
Peron, Florent
8439573a-497c-46cf-9dff-6df489b63364
Fox, Stephen J.
a8957e8a-3086-4917-8575-eb0f9e8604cf
Wells, Neil
86312185-007b-495b-86da-4e2e5b9b8025
Skylaris, Chris Kriton
8f593d13-3ace-4558-ba08-04e48211af61
Essex, Jonathan W.
1f409cfe-6ba4-42e2-a0ab-a931826314b5
Kuprov, Ilya
bb07f28a-5038-4524-8146-e3fc8344c065
Linclau, Bruno
19b9cacd-b8e8-4c65-af36-6352cade84ba

Poole, William G., Peron, Florent, Fox, Stephen J., Wells, Neil, Skylaris, Chris Kriton, Essex, Jonathan W., Kuprov, Ilya and Linclau, Bruno (2024) Conformational analysis of 1,3-difluorinated alkanes. Journal of Organic Chemistry, 89 (12), 8789–8803. (doi:10.1021/acs.joc.4c00670).

Record type: Article

Abstract

Fluorine substitution can have a profound impact on molecular conformation. Here, we present a detailed conformational analysis of how the 1,3-difluoropropylene motif (-CHF-CH2-CHF-) determines the conformational profiles of 1,3-difluoropropane, anti- and syn-2,4-difluoropentane, and anti- and syn-3,5-difluoroheptane. It is shown that the 1,3-difluoropropylene motif strongly influences alkane chain conformation, with a significant dependence on the polarity of the medium. The conformational effect of 1,3-fluorination is magnified upon chain extension, which contrasts with vicinal difluorination. Experimental evidence was obtained from NMR analysis, where polynomial complexity scaling simulation algorithms were necessary to enable J-coupling extraction from the strong second-order spectra, particularly for the large 16-spin systems of the difluorinated heptanes. These results improve our understanding of the conformational control toolkit for aliphatic chains, yield simple rules for conformation population analysis, and demonstrate quantum mechanical time-domain NMR simulations for liquid state systems with large numbers of strongly coupled spins.

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Accepted/In Press date: 29 April 2024
e-pub ahead of print date: 31 May 2024
Published date: 21 June 2024
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Identifiers

Local EPrints ID: 491543
URI: http://eprints.soton.ac.uk/id/eprint/491543
DOI: doi:10.1021/acs.joc.4c00670
ISSN: 0022-3263
PURE UUID: ce7d5eb6-729e-4a97-bef8-b3a8e3d2e473
ORCID for Neil Wells: ORCID iD orcid.org/0000-0002-4607-5791
ORCID for Chris Kriton Skylaris: ORCID iD orcid.org/0000-0003-0258-3433
ORCID for Jonathan W. Essex: ORCID iD orcid.org/0000-0003-2639-2746
ORCID for Ilya Kuprov: ORCID iD orcid.org/0000-0003-0430-2682
ORCID for Bruno Linclau: ORCID iD orcid.org/0000-0001-8762-0170

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Date deposited: 25 Jun 2024 17:09
Last modified: 26 Jun 2024 01:44

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Contributors

Author: William G. Poole
Author: Florent Peron
Author: Stephen J. Fox
Author: Neil Wells ORCID iD
Author: Chris Kriton Skylaris ORCID iD
Author: Jonathan W. Essex ORCID iD
Author: Ilya Kuprov ORCID iD
Author: Bruno Linclau ORCID iD

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