Journal
BULLETIN OF THE CHEMICAL SOCIETY OF JAPAN
Volume 95, Issue 10, Pages 1461-1473Publisher
CHEMICAL SOC JAPAN
DOI: 10.1246/bcsj.20220202
Keywords
Aldehyde; Deuterium; Labeling
Categories
Funding
- JSPS KAKENHI [JP19H04661, JP19H04651, JP20K09396, JP21K14629]
- OCU's Think globally, act locally' Research Grant for Young Scientists 2021 through the hometown donation fund of Osaka City
- Uehara Memorial Foundation
- Japan Science Society
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Deuterium-labeled organic compounds are essential research tools in scientific research. This review focuses on the synthesis of deuterated aldehydes (RCDO), where the hydrogen at the formyl group is replaced with deuterium. Aldehydes serve as useful starting materials for organic synthesis, allowing for various transformations and derivatizations. Therefore, RCDOs are expected to be powerful starting materials for the synthesis of deuterium-labeled compounds. This review discusses both classical and advanced methods for RCDO synthesis.
Deuterium-labeled organic compounds have become indispensable research tools in scientific research. This review focuses on the synthesis of deuterated aldehydes (RCDO) in which the hydrogen at the formyl group is replaced with deuterium. Aldehydes are useful starting materials for organic synthesis. A variety of transformations and derivatizations involving carbon-carbon bond-forming reactions and heteroatom manipulations are possible at the formyl group. Consequently, RCDOs are expected to be a powerful starting material for the synthesis of deuterium-labeled compounds. Many efforts have been devoted to the synthesis of RCDO. The classical and advanced methods are described in this review.
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