The popularity of microflow chemistry has skyrocketed in the last 20 years and more and more chemists are switching from macro-batch reactors to miniaturized flow devices. As a result, microfluidics is paving its way into the future by consolidating its position in organic chemistry not only as a trend but as a new, effective, and sustainable way of conducting chemistry, that clearly will continue to grow and evolve. This perspective highlights the most relevant examples of innovative enhancing technologies applied to microflow reactors aimed to improve and intensify chemical processes. The extensive applicability of microflow chemistry is further illustrated by briefly discussing examples of complex integrated microsystems and scale-up technologies, demonstrating ultimately that microflow chemistry has the potential to become the ideal technology for the future.

Vazquez-Amaya, L. Y., Coppola, G., Van Der Eycken, E. V., Sharma, U. K., Going with the µFlow: Reinterpreting Energy Input in Organic Synthesis, <<CHIMIA>>, 2023; 77 (5): 327-338. [doi:10.2533/chimia.2023.327] [https://hdl.handle.net/10807/341548]

Going with the µFlow: Reinterpreting Energy Input in Organic Synthesis

Coppola, Guglielmo;
2023

Abstract

The popularity of microflow chemistry has skyrocketed in the last 20 years and more and more chemists are switching from macro-batch reactors to miniaturized flow devices. As a result, microfluidics is paving its way into the future by consolidating its position in organic chemistry not only as a trend but as a new, effective, and sustainable way of conducting chemistry, that clearly will continue to grow and evolve. This perspective highlights the most relevant examples of innovative enhancing technologies applied to microflow reactors aimed to improve and intensify chemical processes. The extensive applicability of microflow chemistry is further illustrated by briefly discussing examples of complex integrated microsystems and scale-up technologies, demonstrating ultimately that microflow chemistry has the potential to become the ideal technology for the future.
2023
Inglese
Vazquez-Amaya, L. Y., Coppola, G., Van Der Eycken, E. V., Sharma, U. K., Going with the µFlow: Reinterpreting Energy Input in Organic Synthesis, <<CHIMIA>>, 2023; 77 (5): 327-338. [doi:10.2533/chimia.2023.327] [https://hdl.handle.net/10807/341548]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10807/341548
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