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One-Pot Consecutive Reductive Amination Synthesis of Pharmaceuticals: From Biobased Glycolaldehyde to Hydroxychloroquine

Sofie Van Praet, Gert Preegel, Fatima Rammal, Bert F. Sels

2022ACS Sustainable Chemistry & Engineering14 citationsDOIOpen Access PDF

Abstract

Reductive amination plays a paramount role in the synthesis of amines. It is often proposed as a more ecofriendly synthesis process than the traditional SN2-type reactions of amines as it avoids toxic alkylation reagents such as alkyl halides. This work demonstrates the versatility of the reductive amination reaction via the synthesis of hydroxychloroquine (HCQ), one of the most renowned pharmaceuticals during this coronavirus pandemic. The novel green synthesis strategy is based on three consecutive reductive amination reactions conducted in a one-pot system, avoiding intermediary purification steps. Furthermore, a biobased C2 platform molecule, glycolaldehyde, was selected as a starting reagent. The newly developed reductive amination pathway was appraised using the CHEM21 Green Metric toolkit and compared with the commercially operating method.

Topics & Concepts

Reductive aminationGlycolaldehydeChemistryAminationOrganic chemistryCombinatorial chemistryAlkylationReagentHydroaminationCatalysisChemistry and Chemical EngineeringChemical Synthesis and ReactionsInnovative Microfluidic and Catalytic Techniques Innovation
One-Pot Consecutive Reductive Amination Synthesis of Pharmaceuticals: From Biobased Glycolaldehyde to Hydroxychloroquine | Litcius