Globally, major depressive disorders are a leading cause of disconsolateness affecting more than 300 million individuals. Bupropion is a unique dopamine-norepinephrine reuptake inhibitor (DNRI) commonly utilized in the treatment of depression, smoking cessation, ADHD and other addictions. Herein, we report our attempts to develop a greener, safer and more sustainable process for the preparation of bupropion hydrochloride employing flow chemistry. The use of obnoxious and corrosive liquid bromine was evaded through the employment of polymer-bound pyridinium tribromide and environmentally questionable solvents NMP and DMF were substituted with greener co-solvent systems with appreciable success. The final telescoped flow process afforded bupropion hydrochloride in a 69% overall yield, with improved process mass intensity, productivity and purity, as well as a reduction in reagents/solvents designated as red or amber in terms of H-codes.
Reference:
Van Wyk, L., Neyt, N.C., Jugmohan, J., Panayides, J. & Riley, D. 2024. The synthesis of bupropion hydrochloride under greener and safer conditions utilizing flow technologies. Reaction Chemistry & Engineering, 9. http://hdl.handle.net/10204/13647
Van Wyk, L., Neyt, N. C., Jugmohan, J., Panayides, J., & Riley, D. (2024). The synthesis of bupropion hydrochloride under greener and safer conditions utilizing flow technologies. Reaction Chemistry & Engineering, 9, http://hdl.handle.net/10204/13647
Van Wyk, LT, Nicole C Neyt, Jaimee Jugmohan, Jenny-Lee Panayides, and DL Riley "The synthesis of bupropion hydrochloride under greener and safer conditions utilizing flow technologies." Reaction Chemistry & Engineering, 9 (2024) http://hdl.handle.net/10204/13647
Van Wyk L, Neyt NC, Jugmohan J, Panayides J, Riley D. The synthesis of bupropion hydrochloride under greener and safer conditions utilizing flow technologies. Reaction Chemistry & Engineering, 9. 2024; http://hdl.handle.net/10204/13647.
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