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Origins of small proton chemical shift differences in monodeuterated methyl groups

Origins of small proton chemical shift differences in monodeuterated methyl groups
Origins of small proton chemical shift differences in monodeuterated methyl groups
We have recently shown that the small proton chemical shift difference in 2-methyl-1-(methyl-d)piperidine supports a long-lived nuclear spin state. To identify additional candidate molecules with CH2D groups exhibiting accessible long-lived states, and to investigate the factors governing the magnitude of the shift differences, we report a computational and experimental investigation of methyl rotational equilibria and proton chemical shifts in a variety of 2-substituted 1-(methyl-d)piperidines. The polarity and size of the 2-substituent affect the 1,2-stereoisomeric relationship, and consequently, the strength of the rotational asymmetry within the CH2D group. Nonpolar and large 2-substituents prefer the equatorial position, and relatively large shift differences (i.e., > 13 ppb) are observed. Polar and small substituents, however, increasingly prefer the axial position, and medium to small shift differences (i.e., 0 to 9 ppb) are observed. In addition, the diastereotopic CH2D proton chemical shift difference for tricarbonyl(1-chloro-2-deuteriomethylbenzene) chromium(0) was computed, showing that reasonable predictions of these small shift differences can be extended to more complex, organometallic species.
0022-3263
8943–8949
Ogba, O. Maduka
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Elliott, Stuart
6cc724de-f75f-4c0f-a00a-e712b4e73b12
Kolin, David A.
20595efe-a127-4ba2-b958-dd33a3ea30c0
Brown, Lynda J.
75aa95fa-5d27-46a7-9dbe-0f465a664f5b
Cevallos, Sebastian
82576f89-833a-4637-aa24-d1100f42f739
Sawyer, Stuart
43fe81b8-f66d-4299-ab7a-a91122c8e69a
Levitt, Malcolm H.
bcc5a80a-e5c5-4e0e-9a9a-249d036747c3
O'Leary, Daniel J.
9f2ce688-b1b7-471c-8e75-9a3e0b800ca1
Ogba, O. Maduka
b773ecc1-0ba8-4f75-84cc-fae34e382112
Elliott, Stuart
6cc724de-f75f-4c0f-a00a-e712b4e73b12
Kolin, David A.
20595efe-a127-4ba2-b958-dd33a3ea30c0
Brown, Lynda J.
75aa95fa-5d27-46a7-9dbe-0f465a664f5b
Cevallos, Sebastian
82576f89-833a-4637-aa24-d1100f42f739
Sawyer, Stuart
43fe81b8-f66d-4299-ab7a-a91122c8e69a
Levitt, Malcolm H.
bcc5a80a-e5c5-4e0e-9a9a-249d036747c3
O'Leary, Daniel J.
9f2ce688-b1b7-471c-8e75-9a3e0b800ca1

Ogba, O. Maduka, Elliott, Stuart, Kolin, David A., Brown, Lynda J., Cevallos, Sebastian, Sawyer, Stuart, Levitt, Malcolm H. and O'Leary, Daniel J. (2017) Origins of small proton chemical shift differences in monodeuterated methyl groups. The Journal of Organic Chemistry, 82 (17), 8943–8949. (doi:10.1021/acs.joc.7b01356).

Record type: Article

Abstract

We have recently shown that the small proton chemical shift difference in 2-methyl-1-(methyl-d)piperidine supports a long-lived nuclear spin state. To identify additional candidate molecules with CH2D groups exhibiting accessible long-lived states, and to investigate the factors governing the magnitude of the shift differences, we report a computational and experimental investigation of methyl rotational equilibria and proton chemical shifts in a variety of 2-substituted 1-(methyl-d)piperidines. The polarity and size of the 2-substituent affect the 1,2-stereoisomeric relationship, and consequently, the strength of the rotational asymmetry within the CH2D group. Nonpolar and large 2-substituents prefer the equatorial position, and relatively large shift differences (i.e., > 13 ppb) are observed. Polar and small substituents, however, increasingly prefer the axial position, and medium to small shift differences (i.e., 0 to 9 ppb) are observed. In addition, the diastereotopic CH2D proton chemical shift difference for tricarbonyl(1-chloro-2-deuteriomethylbenzene) chromium(0) was computed, showing that reasonable predictions of these small shift differences can be extended to more complex, organometallic species.

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AM - Ogba et al. - 2017 - Origins of Small Proton Chemical Shift Differences - Accepted Manuscript
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Accepted/In Press date: 26 July 2017
e-pub ahead of print date: 26 July 2017
Published date: 26 July 2017

Identifiers

Local EPrints ID: 413804
URI: http://eprints.soton.ac.uk/id/eprint/413804
DOI: doi:10.1021/acs.joc.7b01356
ISSN: 0022-3263
PURE UUID: 5b831757-c561-4d00-9b0e-a78ef6ce50f1
ORCID for Lynda J. Brown: ORCID iD orcid.org/0000-0002-5678-0814
ORCID for Malcolm H. Levitt: ORCID iD orcid.org/0000-0001-9878-1180

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Date deposited: 06 Sep 2017 16:31
Last modified: 16 Mar 2024 05:40

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Contributors

Author: O. Maduka Ogba
Author: Stuart Elliott
Author: David A. Kolin
Author: Lynda J. Brown ORCID iD
Author: Sebastian Cevallos
Author: Stuart Sawyer
Author: Malcolm H. Levitt ORCID iD
Author: Daniel J. O'Leary

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