A New Solution to Optimize Continuous Chemistry

Benefits of flow chemistry
Modern flow reactors have many advantages over traditional batch reactors. Reaction conditions that may be challenging to achieve in a batch reactor can be easier and safer to realize and operate in a flow reactor. For example, a reaction where the temperature far exceeds the boiling point of the solvent can be easily run due to the flow reactor’s ability to contain pressure. This, coupled with the improved mixing properties of a flow reactor, gives a greater choice of conditions and reagents, allowing flow reactors to deliver products with better yields and fewer impurities.

Challenging task
The fast optimization of a chemical reaction using a flow reactor is not always simple. It is a repetitive process where conditions and flow rates are altered, a sample collected and an offline analysis performed. Clearly, a more optimized approach would be to provide instant feedback to changes made, providing faster and easier optimization.

A recent collaboration with Professor Steven Ley at the University of Cambridge has resulted in the development of a reliable solution to quickly and easily optimize a flow reaction system. A DS Micro Flow Cell, coupled to a ReactIR instrument, makes the real time optimization of a flow reactor a reality. Control parameters can be adjusted and the ReactIR system immediately measures the impact of those changes. The formation of products, by-products and reactive intermediates can be followed and the information used to make ‘on the fly’ adjustments to gain steady-state conditions as quickly as possible, saving valuable time and materials.

www.mt.com/reactir

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