In order to use segmented chemical flow processing in more complex reaction sequences, a method has been developed to precisely control the addition of reagent streams during multi-step operations. Using in-line infra-red monitoring with a new LabVIEW software application, it is possible to control additional pumps to dispense further reagents in real time based upon the concentration of reaction intermediates. This enables precise mixing with perfect timing thus greatly increasing product quality and enabling segmented chemical flow processing to be used in extended reaction sequences. © The Royal Society of Chemistry 2011.

Lange, H., CARTER Catherine, F., HOPKIN Mark, D., Burke, A., GOODE Jon, G., BAXENDALE Ian, R., et al. (2011). A Breakthrough Method for the Accurate Addition of Reagents in Multi-step Segmented Flow Processing. CHEMICAL SCIENCE, 2(4), 765-769 [10.1039/c0sc00603c].

A Breakthrough Method for the Accurate Addition of Reagents in Multi-step Segmented Flow Processing

LANGE Heiko;
2011

Abstract

In order to use segmented chemical flow processing in more complex reaction sequences, a method has been developed to precisely control the addition of reagent streams during multi-step operations. Using in-line infra-red monitoring with a new LabVIEW software application, it is possible to control additional pumps to dispense further reagents in real time based upon the concentration of reaction intermediates. This enables precise mixing with perfect timing thus greatly increasing product quality and enabling segmented chemical flow processing to be used in extended reaction sequences. © The Royal Society of Chemistry 2011.
Articolo in rivista - Articolo scientifico
Flow chemistry; in-line monitoring; infra-red spectroscopy; multi-step synthesis; machine-assisted synthesis;
English
2011
2
4
765
769
reserved
Lange, H., CARTER Catherine, F., HOPKIN Mark, D., Burke, A., GOODE Jon, G., BAXENDALE Ian, R., et al. (2011). A Breakthrough Method for the Accurate Addition of Reagents in Multi-step Segmented Flow Processing. CHEMICAL SCIENCE, 2(4), 765-769 [10.1039/c0sc00603c].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/320674
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