Photo‐and electro‐catalytic deuteration of feedstock chemicals and pharmaceuticals:A review

Deuterium labeling techniques are widely utilized as efficient tools to study the absorption,distribution,metabolism,and excretion(ADME)of pharmaceuticals.Moreover,deuterium‐labeled drugs are expected to prolong the half‐life of drug metabolism,enhance the efficacy of drugs,close metabolic sites,and decrease side effects.Thus,there is a rising demand for the practical construction of deuterium‐labeled drugs and their intermediates under mild conditions.This paper timely provides an overview of the recent advances in both photo‐and electro‐catalytic mild and selective deuteration of fine chemicals and pharmaceuticals with low‐cost and sustainable deuterium source.Three types of deuteration strategies are discussed according to the deuteration mode,named deuterium atom transfer strategy,deuterium atom abstraction strategy and deuterated water splitting strategy respectively.The application scope and mechanistic insights are discussed comprehensively.Finally,the perspective on the challenges and future development trends for photo‐and electro‐catalytic deuteration strategies are also presented.

Electrocatalytic water-splitting for the controllable and sustainable synthesis of deuterated chemicals

Tandem water electrolysis for the transformation of universal feedstock to value-added chemicals integrated with hydrogen generation and in situ utilization is a promising approach to address the economic challenges of electrochemical hydrogen evolution and storage.Herein,we present the controllable electrocatalytic deuteration of halides using inexpensive and reusable heavy water(D2 O)as a D-source for the preparation of valuable D-labelled chemicals and pharmaceuticals under mild conditions.This electrochemical deuteration method with high efficiency and selectivity furnishes a series of D-labelled chemicals and pharmaceuticals in high yields with excellent D-incorporation.The reaction efficiency and selectivity,that is,the precise substitution of deuterium atoms at different halogen positions,can be tuned by varying the applied voltages.The results show the great potential of green and economical electrocatalytic methods for producing value-added fine chemicals in addition to hydrogen evolution.