Micro-total process system machine (μ-TPSM) for rapid synthesis of antiretroviral darunavir

Batch processes show great potential in antiretroviral darunavir (DRV) synthesis, but the longer process time, expensive catalyst, shortage of skilled manpower, laborious post-synthetic work-up, transport of one intermediate from one place to another, and need for maintaining expensive storage inven...

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Veröffentlicht in:	Reaction chemistry & engineering 2023-03, Vol.8 (4), p.98-916
Hauptverfasser:	Chauhan, Ruchi, Rana, Abhilash, Ghosh, Subhash, Srihari, P, Singh, Ajay K
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Sprache:	eng
Schlagworte:	Batch processing Continuous flow Palladium Synthesis
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creator	Chauhan, Ruchi Rana, Abhilash Ghosh, Subhash Srihari, P Singh, Ajay K
description	Batch processes show great potential in antiretroviral darunavir (DRV) synthesis, but the longer process time, expensive catalyst, shortage of skilled manpower, laborious post-synthetic work-up, transport of one intermediate from one place to another, and need for maintaining expensive storage inventory are some major limitations. Herein, we report the first-ever individual continuous flow sequence involving 7 steps and an integrated micro-total process system machine (μ-TPSM) for the last 4 steps of API DRV synthesis. Employing this μ-TPSM, DRV could be synthesized within 41 min of total residence time with a 71% isolated yield, and an output of 0.8 g h −1 . The use of RANEY®-Ni instead of palladium on carbon renders the process more affordable. Herein, we have reported the μ-TPSM for the synthesis of Darunavir within 41 min of total residence time with a 71% isolated yield, and an output of 0.8 g h −1 .
doi_str_mv	10.1039/d2re00446a
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subjects	Batch processing Continuous flow Palladium Synthesis
title	Micro-total process system machine (μ-TPSM) for rapid synthesis of antiretroviral darunavir
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