Mellisa B. Sagandira scite author profile

Herein, we demonstrate an elegant multistep continuous flow synthesis for stavudine (d4T), a potent nucleoside chemotherapeutic agent for human immunodeficiency virus, acquired immunodeficiency syndrome (AIDS) and AIDS-related conditions. This was accomplished via six chemical transformations in five sequential continuous flow reactors from an affordable starting material, 5-methyluridine. In the first instance, single step continuous flow synthesis was demonstrated with an average of 97% yield, 21.4 g/h throughput per step, and a total of 15.5 min residence time. Finally, multistep continuous flow synthesis of d4T in 87% total yield with a total residence time of 19.9 min and 117 mg/h throughput without intermediate purification was demonstrated.

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Continuous flow synthesis of xylidines via biphasic nitration of xylenes and nitro-reduction

Sagandira

Watts

2021

J Flow Chem

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Mellisa B. Sagandira

An overview of the synthetic routes to essential oral anti-diabetes drugs

Multistep Continuous Flow Synthesis of Stavudine

Continuous flow synthesis of xylidines via biphasic nitration of xylenes and nitro-reduction

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