Replacing hydrogen with deuterium raises the activation energy for C−D bond cleavage. This approach has gained attention in drug design, especially to protect the ortho-position of pyridines, which are susceptible to enzymatic oxidation. Until now, direct hydrogen isotope exchange has been largely restricted to the use of reactive organolithium reagents or metal-catalysed deuteration methods. In this work, we present a metal-free, selective ortho-deuteration of N-heterocycles starting from their N-oxides, proceeding at room temperature in just 5 minutes. This method achieves high deuterium incorporation across a broad range of N-heterocycles, including bioactive compounds. Experimental and computational studies have elucidated the mechanism of the reaction, showing that regioselectivity is driven by a successful increase in acidity at the ortho-position, enabling deprotonation by the in-situ generated dimsyl anion.
Metal‐Free, Selective Ortho‐Deuteration of N‐Heterocyclic Oxides / A. Montoli, A. Dimasi, A. Citarella, P. Ronchi, D. Passarella, V. Fasano. - In: ADVANCED SYNTHESIS & CATALYSIS. - ISSN 1615-4150. - (2025), pp. 1-7. [Epub ahead of print] [10.1002/adsc.202401585]
Metal‐Free, Selective Ortho‐Deuteration of N‐Heterocyclic Oxides
A. MontoliPrimo
;A. DimasiSecondo
;A. Citarella;D. PassarellaPenultimo
;V. Fasano
Ultimo
2025
Abstract
Replacing hydrogen with deuterium raises the activation energy for C−D bond cleavage. This approach has gained attention in drug design, especially to protect the ortho-position of pyridines, which are susceptible to enzymatic oxidation. Until now, direct hydrogen isotope exchange has been largely restricted to the use of reactive organolithium reagents or metal-catalysed deuteration methods. In this work, we present a metal-free, selective ortho-deuteration of N-heterocycles starting from their N-oxides, proceeding at room temperature in just 5 minutes. This method achieves high deuterium incorporation across a broad range of N-heterocycles, including bioactive compounds. Experimental and computational studies have elucidated the mechanism of the reaction, showing that regioselectivity is driven by a successful increase in acidity at the ortho-position, enabling deprotonation by the in-situ generated dimsyl anion.
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Adv Synth Catal - 2025 - Montoli - Metal‐Free Selective Ortho‐Deuteration of N‐Heterocyclic Oxides.pdf
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