subject: Continuous Flow Chemistry – Faster Structural Information in Real Time [print this page] Continuous flow chemistry is valuable for improving product quality and yield. Combining the highly molecular specific nature of Fourier Transform Infrared (FTIR) to continuous flow chemistry enables researchers, scientists and engineers to quickly and easily develop continuous flow processes for their products that would otherwise be considered a traditional batch method.
The established iC IR real time reaction analysis software package allows an instantaneous view of reaction progression, dispersion characteristics and side-reactions with or without prior knowledge of the chemistry under development/production.
Gain further understanding of continuous flow chemistry by viewing the on-demand webinar "The Application of the ReactIR Flow Cell to Continuous Processing Technology" presented by Prof. Steven Ley, University of Cambridge.
Access the Application of the ReactIR Flow Cell to Continuous Processing Technology On-Demand Webinar
The ReactIR flow cell is presented as a convenient inline analytical tool for continuous flow chemistry processing. The flow cell, operated with ATR technology, is attached inline using standard Omnifit connections. With the established iC IR 4.0 software the consumption of reagents and formation of products can be monitored in real-time, allowing for rapid optimization. Unstable reactive intermediates can also be observed in situ, giving mechanistic insight to complex transformations.
This webinar will deal with the application of the ReactIR flow cell inline using various meso and micro scale flow chemistry equipment. The utility of the cell for a range of different reaction types will be presented.
Curtius rearrangement using the Vapourtec R2+/R4
Butane-2,3-diacetal protection using the Uniqsis FlowSyn
Hydrogenation using the H-Cube Midi
Marshall reaction using Future Chemistry microfluidic devices
Continuous Flow Chemistry Faster Structural Information in Real Time
