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Unlocking the potential of hydrogen deuterium exchange via an iterative continuous-flow deuteration process

Kevin Tatoueix, Marco Lepron, Cédric Barboux, Marie‐Christine Scherrmann, Grégory Pieters, Sophie Feuillastre

2025Nature Communications13 citationsDOIOpen Access PDF

Abstract

Labelled compounds bearing hydrogen isotopes are keystones in diverse areas constituting a multi-billion dollar global market including drugs, diagnostics, biology, toxicology and smart materials. While hydrogen deuterium exchange (HDE) methods hold promise as relevant tools for the late-stage and one-step preparation of deuterium-labelled compounds, they often fall short in achieving sufficient isotopic purity combined either with a site-selectivity or with a full deuteration process, highlighting the need for further development and optimisation. This report pinpoints an approach to unlock the potential of HDE using the concept of iterative runs in continuous-flow technology (recirculation process). This closed-loop process grants access now to deuterated compounds with high isotopic purities, labelled at a precise site or perdeuterated on demand, in a fast, productive, and environmentally friendly way. Hydrogen deuterium exchange (HDE) methods hold promise as relevant tools for the late-stage and one-step preparation of deuterium-labelled compounds, but they often fall short in achieving sufficient isotopic purity combined either with a site-selectivity or with a full deuteration process. Here, the authors report an approach to unlock the potential of HDE using the concept of iterative runs in continuous-flow technology.

Topics & Concepts

DeuteriumProcess (computing)HydrogenContinuous flowFlow (mathematics)Hydrogen–deuterium exchangeChemistryComputer scienceBiochemical engineeringPhysicsMechanicsEngineeringNuclear physicsOrganic chemistryOperating systemChemical Reactions and IsotopesCold Fusion and Nuclear ReactionsMass Spectrometry Techniques and Applications
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