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Carbon isotope exchange and transfer reactions involving CO2

Carbon isotope exchange and transfer reactions involving CO2
Carbon isotope exchange and transfer reactions involving CO2
Carboxylation reactions are fundamental transformations in organic chemistry, enabling the synthesis of diverse and valuable compounds, including polymers, pharmaceuticals, and agrochemicals. In recent years, carboxylation processes proceeding via carbon isotope exchange or CO2 transfer have received significant interest. These processes offer intriguing decarboxylation/carboxylation reactivity and enhance existing carboxylation pathways, in particular by delivering efficient and sustainable solutions for carbon isotope labelling. This review compares and contrasts the related fields of carbon isotope exchange and transfer reactions involving CO2. We detail early developments to the most recent advancements and discuss the advantages and limitations of each approach, in particular with regard to the efficiency of each strategy.
2052-4129
Beaver, Grace E.
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Marris, Katherine E.
1b7a3457-3626-4b07-9b67-fbfb37f9e9dc
Ryder-Mahoney, Daniel J.
4d4f1625-cbb6-46d2-b9fa-def1d42e956f
Tzaras, Dimitrios Ioannis
82bf59aa-f8cb-4674-a656-6c6f140c91af
Bragg, Ryan A.
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Elmore, Charles S.
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Perry, Gregory J.P.
766e7fc8-abf3-4d1e-9949-c1b3439a2185
Beaver, Grace E.
31801395-928b-44c4-ab39-5593e2bb42a1
Marris, Katherine E.
1b7a3457-3626-4b07-9b67-fbfb37f9e9dc
Ryder-Mahoney, Daniel J.
4d4f1625-cbb6-46d2-b9fa-def1d42e956f
Tzaras, Dimitrios Ioannis
82bf59aa-f8cb-4674-a656-6c6f140c91af
Bragg, Ryan A.
a5c233ec-0827-42e9-b8b2-534d9aea60a2
Elmore, Charles S.
cda41f97-441a-444d-9f54-724d46d9e4b3
Perry, Gregory J.P.
766e7fc8-abf3-4d1e-9949-c1b3439a2185

Beaver, Grace E., Marris, Katherine E., Ryder-Mahoney, Daniel J., Tzaras, Dimitrios Ioannis, Bragg, Ryan A., Elmore, Charles S. and Perry, Gregory J.P. (2026) Carbon isotope exchange and transfer reactions involving CO2. Organic Chemistry Frontiers. (doi:10.1039/D6QO00133E.).

Record type: Article

Abstract

Carboxylation reactions are fundamental transformations in organic chemistry, enabling the synthesis of diverse and valuable compounds, including polymers, pharmaceuticals, and agrochemicals. In recent years, carboxylation processes proceeding via carbon isotope exchange or CO2 transfer have received significant interest. These processes offer intriguing decarboxylation/carboxylation reactivity and enhance existing carboxylation pathways, in particular by delivering efficient and sustainable solutions for carbon isotope labelling. This review compares and contrasts the related fields of carbon isotope exchange and transfer reactions involving CO2. We detail early developments to the most recent advancements and discuss the advantages and limitations of each approach, in particular with regard to the efficiency of each strategy.

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Accepted/In Press date: 27 March 2026
e-pub ahead of print date: 30 March 2026
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Identifiers

Local EPrints ID: 511498
URI: http://eprints.soton.ac.uk/id/eprint/511498
DOI: doi:10.1039/D6QO00133E.
ISSN: 2052-4129
PURE UUID: 7c0117c9-cdf1-49cb-8b79-3a6359e4acf0
ORCID for Dimitrios Ioannis Tzaras: ORCID iD orcid.org/0000-0002-7382-2860
ORCID for Gregory J.P. Perry: ORCID iD orcid.org/0000-0001-8173-3369

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Date deposited: 18 May 2026 16:38
Last modified: 19 May 2026 02:13

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Contributors

Author: Grace E. Beaver
Author: Katherine E. Marris
Author: Daniel J. Ryder-Mahoney
Author: Dimitrios Ioannis Tzaras ORCID iD
Author: Ryan A. Bragg
Author: Charles S. Elmore
Author: Gregory J.P. Perry ORCID iD

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