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Digitisation of a modular plug and play 3D printed continuous flow system for chemical synthesis

Literature Information

Publication Date 2023-10-03
DOI 10.1039/D3DD00128H
Impact Factor 0
Authors

Mireia Benito Montaner, Matthew R. Penny, Stephen T. Hilton

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Abstract

We describe the development of a digital modular 3D printed continuous flow system to carry out both classical and photochemical synthesis that uses a novel PC based software interface for communication. Using this system, we describe how we were able to both control and monitor reaction conditions at the same time. The system integrates in-line sensors via a simple cassette based system that is analogous to a retro-games console enabling hot-swapping of modules by a user. A PC-interface platform was created to automate both its functional control, including the injection of solvents, and the visualization of sensor-reported data. The utility of the system was demonstrated by performing a series of reactions highlighting the importance that precise control of solvent flow rate and accurate reporting of reaction temperatures can have on standardization and reproducibility and that the system can be easily modified to allow for scale-up synthesis.

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Digital Discovery

Digital Discovery
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Self-citation Rate: 0%
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