We describe the novel electrochemical multicomponent reaction (e-MCR) of readily available isocyanides, thiols and carboxylic acids to form -substituted -thiocarbamate derivatives that are found in several biologically active compounds. The effectiveness of the μ-electro flow reactor (μ-EFR) was showcased through significant reduction in electrolyte volume during the reaction, achieving gram-scale production of 4a within a short 12 min residence time using a Pt/Pt flow cell.
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Electrochemically-driven difunctionalization of the isocyanide and Mumm rearrangement cascade: expeditious synthesis of -acyl--alkyl -thiocarbamates.
Chem Commun (Camb)
July 2024
Department of Chemistry, Mohanlal Sukhadia University, Udaipur, 313001, India.
We describe the novel electrochemical multicomponent reaction (e-MCR) of readily available isocyanides, thiols and carboxylic acids to form -substituted -thiocarbamate derivatives that are found in several biologically active compounds. The effectiveness of the μ-electro flow reactor (μ-EFR) was showcased through significant reduction in electrolyte volume during the reaction, achieving gram-scale production of 4a within a short 12 min residence time using a Pt/Pt flow cell.
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