Detection of pyridine derivatives by SABRE hyperpolarization at zero field
Detection of pyridine derivatives by SABRE hyperpolarization at zero field
Nuclear magnetic resonance (NMR) spectroscopy is a powerful analytical tool used in modern science and technology. Its novel incarnation, based on measurements of NMR signals without external magnetic fields, provides direct access to intramolecular interactions based on heteronuclear scalar J-coupling. The uniqueness of these interactions makes each zero-field NMR spectrum distinct and useful in chemical fingerprinting. However, the necessity of heteronuclear coupling often results in weak signals due to the low abundance of certain nuclei (e.g., 15N). Hyperpolarization of such compounds may solve the problem. In this work, we investigate molecules with natural isotopic abundance that are polarized using non-hydrogenative parahydrogen-induced polarization. We demonstrate that spectra of hyperpolarized naturally abundant pyridine derivatives can be observed and uniquely identified whether the same substituent is placed at a different position of the pyridine ring or different constituents are placed at the same position. To do so, we constructed an experimental system using a home-built nitrogen vapor condenser, which allows for consistent long-term measurements, crucial for identifying naturally abundant hyperpolarized molecules at a concentration level of ~1 mM. This opens avenues for future chemical detection of naturally abundant compounds using zero-field NMR.
Putaj, Piotr
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Alcicek, Seyma
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Bondar, Oksana
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Bodek, Łukasz
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Duckett, Simon
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Pustelny, Szymon
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22 June 2023
Putaj, Piotr
52fe3674-7107-4eae-8075-fcd057a93f26
Alcicek, Seyma
b4500b5b-952e-4a0e-ab09-8128ae672698
Bondar, Oksana
7e0517b6-7826-4966-86bf-6cb493c709b5
Bodek, Łukasz
a68a196e-f475-4a9d-b28f-99a0c2361caf
Duckett, Simon
c9364d47-a021-4b4c-a379-1acf7727efe5
Pustelny, Szymon
69956713-aa13-47a7-b069-fa101dcde53c
Putaj, Piotr, Alcicek, Seyma, Bondar, Oksana, Bodek, Łukasz, Duckett, Simon and Pustelny, Szymon
(2023)
Detection of pyridine derivatives by SABRE hyperpolarization at zero field.
Communications Chemistry, 6 (1), [131].
(doi:10.1038/s42004-023-00928-z).
Abstract
Nuclear magnetic resonance (NMR) spectroscopy is a powerful analytical tool used in modern science and technology. Its novel incarnation, based on measurements of NMR signals without external magnetic fields, provides direct access to intramolecular interactions based on heteronuclear scalar J-coupling. The uniqueness of these interactions makes each zero-field NMR spectrum distinct and useful in chemical fingerprinting. However, the necessity of heteronuclear coupling often results in weak signals due to the low abundance of certain nuclei (e.g., 15N). Hyperpolarization of such compounds may solve the problem. In this work, we investigate molecules with natural isotopic abundance that are polarized using non-hydrogenative parahydrogen-induced polarization. We demonstrate that spectra of hyperpolarized naturally abundant pyridine derivatives can be observed and uniquely identified whether the same substituent is placed at a different position of the pyridine ring or different constituents are placed at the same position. To do so, we constructed an experimental system using a home-built nitrogen vapor condenser, which allows for consistent long-term measurements, crucial for identifying naturally abundant hyperpolarized molecules at a concentration level of ~1 mM. This opens avenues for future chemical detection of naturally abundant compounds using zero-field NMR.
Text
s42004-023-00928-z (3)
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Accepted/In Press date: 9 June 2023
Published date: 22 June 2023
Identifiers
Local EPrints ID: 489209
URI: http://eprints.soton.ac.uk/id/eprint/489209
ISSN: 2399-3669
PURE UUID: 5d365934-d6ee-4d5b-84a2-f00bcaa064f8
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Date deposited: 17 Apr 2024 16:55
Last modified: 18 Apr 2024 02:06
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Contributors
Author:
Piotr Putaj
Author:
Seyma Alcicek
Author:
Oksana Bondar
Author:
Łukasz Bodek
Author:
Simon Duckett
Author:
Szymon Pustelny
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