Optimize and Control Flow Chemistry Real-Time Analysis of Continuous Reactions0 pages
Optimize and Control Flow Chemistry
nnnnReal-Time Analysis of Continuous Reactions
nnnn9
nnnnFaster Process Optimization
nnnnUnderstanding dispersion and diffusion
nnnneffects is critical when optimizing flow
nnnnreactions. FlowlR™ tracks these effects In
nnnnreal time to enable stoichiometric reaction
nnnncontrol, reducing the use of expensive
nnnnmaterials and downstream processing
nnnnScreen Reactions Quickly
nnnnThe specificity of the IR measurement
nnnnenables structural information to be
nnnndetermined. Both reactants and reaction
nnnnconditions can be quickly screened,
nnnnenabling the faster development of new
nnnncompounds and synthetic routes.
nnnnIn-Cell Optimization
nnnnThe unique design of the FlowlR™ cell
nnnnenables measurements to be made with a
nnnnvery small sample volume. This reduces
nnnnthe amount of materials required to con-
nnnnduct studies, which leads to a reduction In
nnnnthe amount of precious starting materials.
nnnnIncreased Personal Safety
nnnnThe successful Implementation of flow
nnnnchemistry often Involves the use of a
nnnnscavenging process as part of the
nnnnclean-up step. FlowlR™ Increases
nnnnpersonal safety by allowing the user to
nnnnmonitor clean-up efficiency, which is
nnnnparticularly Important when using
nnnnhazardous and/or toxic materials.
nnnnFlowlR™
nnnnResearchers across academia and industry are
nnnnincreasingly using continuous flow chemistry to develop
nnnnnew reactions and processes with increased specificity,
nnnnyield and product quality. Optimization of this work is
nnnnoften challenging as offline analytical techniques, such
nnnnas HPLC, do not provide the information required fast
nnnnenough to optimize the reaction as it happens. FlowlR™
nnnnenables the screening and optimization of flow reactions
nnnnin real time, saving valuable time and materials.
nnnnMETTI
nnnnEDO
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