Recently, there has been a growing interest in the pharmaceutical industries to incorporate deuterium in drugs candidates to improve their metabolism and pharmacokinetic properties¹. A significant number of deuterated drug candidates (heavy drugs) have been synthesized and forwarded to clinical trials, such as Deutetrabenazine (Austedo®, TEVA pharmaceuticals) which is the first deuterated drug on the market. However, preparation of organic compounds selectively labelled with deuterium atom, remains a challenging synthetic problem. Radical deuteration of alkyl halides is one of the most efficient approach to perform this task. It is usually run using organotin deuterides² but this method has three major drawbacks: organotin deuterides are expensive, toxic³ and led to product contamination.
We report here a method to deuterate alkyl iodides via a radical pathway with deuterated water as source of deuterium atom. Triethylborane is used to initiate and propagate the chain and dodecanethiol is used as a catalyst⁴. High deuterations and yields are obtained using this method which is compatible with a large range of functional groups.    

The development of the deuteration method led us to discoveries that incite us to reinvestigate the mechanism of xanthates deoxygenation described by Wood et al.⁵ (see below) who used heavy water activated by trialkylboranes as a source of deuterium atom.

[1] Mullard, A. Nat. Rev. Drug Discovery 2016, 15, 219.
[2] Curran, D. P.; Ramamoorthy, P. S. Tetrahedron 1993, 49 (22), 4841–4858.
[3] I. J. Boyer, Toxicology 1989, 55, 253–298.
[4] B. M. Mikhailov; Y. N. Bubnov Zh. Obshch. Khim. 1961, 31, 160-166.
[5] D. A. Spiegel, K. B. Wiberg, L. N. Schacherer, M. R. Medeiros, J. L. Wood, J. Am. Chem. Soc. 2005, 127, 12513–12515.