Feasibility studies
Cost effective, Flexible, R&D capacity for maximum results
By utilising our feasibility, contract research and manufacturing services, end users can access over 10 years of flow chemistry experience allowing a rapid and cost effective way of;
- Assessing if flow chemistry is of economic benefit to your Company
- Providing increased manpower if resources are limited
Whilst this is a customized solution, examples have included the performance of:
Including theoretical appraisal of potential routes
Repeated ‘hot’ by end-user
- Customer defined model reactions
To build business cases for investment in flow equipment - Synthetic route development
Including theoretical appraisal of potential routes - Reaction screening to increase product selectivity
Increasing profitability as a function of reaction control - ‘Cold’ reaction development for radiochemical end-users
Employing our scalable portfolio of flow reactor equipment, we are able to offer the customer the option of contract manufacturing material within KiloFlow®, using methodology defined within Labtrix®, either by the Customer or via a feasibility study.
Our engineering experts are also on hand to advise on material compatibility, pump selection and thermal management techniques for the development of customized solutions.
Cost effective: before investing in Flow Chemistry, the technical and economical feasibility can be clarified enabling decisions to be made about introducing MRT into your Company.
Flexible R&D capacity: the feasibility study can be executed with the flexible man-capacity of Chemtrix.
Maximum results: through conducting feasibility studies using the experts at Chemtrix, the optimal parameters for your syntheses will be rapidly identified.
The application of Flow Chemistry provides the user with numerous advantages that address problems such as the safety issues associated with performing highly exothermic processes, the synthesis of thermally/mechanically unstable materials, the generation of highly reactive compounds and intermediates, along with the handling of high potency compounds.
In addition, the technology can assist with the optimization of reactions where selectivity can be a problem, due to for example the formation of short lived intermediates or the need for precise temperature control.
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