Microfluidic Reactors

Microfluidic Reactors-Greener, safer, and more reliable innovative green pharmaceutical technologies

By using microreactors or other types of continuous flow reactors, chemical processes can be precisely controlled. The transition from batch to continuous processes related to the use of flow reactors makes it possible to enhance the process and improve its economic efficiency. Flow reactors are commonly used to overcome mass or heat transfer limitations in chemical reactions. In addition, flow reactors allow for the development of new process windows by controlling extreme reactions or process conditions.

Continuous reaction technology safeguards safety and reduces pollution from the source of the process, and is a globally recognized green path for drug research and production. We can provide customers with one-stop services from small-scale laboratory feasibility studies to industrial scale production facilities.

A practical, flexible, and scalable modular technology platform for continuous reactions, which can achieve screening reaction conditions through module combination. The types of reactions include low-temperature reactions, high-temperature reactions, diazotization reactions, oxidation reactions involving peroxides, nitrification reactions, photochemical reactions, electrochemical reactions, reactions involving high-energy compounds (such as azide, hydrazine, etc.), and continuous flow technologies involving gas participation in reactions.

The use of microreactors and flow reactors brings the following advantages:

1.By minimizing side reactions to the greatest extent possible, product selectivity and yield can be improved in many organic reactions

2. Produce materials with customized characteristics (such as particle size and shape) through precise control of process conditions

3. Accelerate the development and optimization of new chemical processes

4. Quickly adapt to constantly changing process parameters

5. By reducing the use of raw materials and energy, efficient, sustainable, and cost-effective production can be achieved.

Typical examples of reaction categories that benefit from flow reactor processing are ozone decomposition, halogenation reactions, synthesis of ionic liquids, nitration reactions, hydrogenation reactions, epoxidation and ethoxylation reactions, and polymerization reactions. In addition to these classics, we are currently dedicated to the following reaction categories:

photochemistry

1. Organic reactions catalyzed by multiphase reactions (using a Makuflo microreactor for multiphase reactions. Microreactors can study highly exothermic reactions under safe conditions and use minimal materials to study the reactions of high-value reactants.)

2. Synthesis of active intermediates (such as Grignard reagents)

3. Synthesis of Rice Particles

Whether you want to improve process efficiency or create new situations with us, we are the right partner.

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