High Throughput Flow Reactor for Process Chemists

High Throughput Flow Reactor for Process Chemists

Overview

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  • Source: Uniqsis

  • Date: 27 Jul,2022

The FlowSyn Maxi™ from Uniqsis is a high throughput flow reactor for process chemists looking to optimise reaction conditions before scaling-up synthetic production to multiple kilograms per day.

Caption: FlowSyn Maxi™ high throughput flow reactor for process chemists

Combining the benefits of proven FlowSyn technology with the capability to run at high flow rates (up to 100 ml/min) in a compact benchtop design – the FlowSyn Maxi™ sets a new standard for higher throughput applications. Designed for ease of use the highly intuitive user software interface quickly guides you through the process for setting up a flow chemistry reaction.

Once set up, FlowSyn Maxi automatically runs the experiment unattended, ensuring that critical parameters remain within defined limits.

FlowSyn Maxi™ is designed to carry out superheated reactions up to +260°C (1400 psi) and cooled reactions down to -70°C – making it one of the most versatile process scale flow reactors available. The robustly constructed system can be specified in stainless steel or Hastelloy® with PTFE flow paths making it compatible with most chemistries. The unit is fitted with larger bore inlet tubing and upgraded inlet/outlet solenoid valves with bigger fluidic channels to cope with higher process scale flow rates.

The FlowSyn Maxi™ is compatible with all existing Uniqsis coil reactors, though is optimized for use with larger reactors (up to 60ml) using 1/8-inch OD tubing in conjunction with glass static mixer chips to ensure efficient and reproducible mixing. Reagents can be delivered from large stock bottles or from sample loops (up to 50 ml).

For further information about the FlowSyn Maxi™ please visit www.uniqsis.com/paProductsDetail.aspx?ID=FLW_MAXI or contact Uniqsis on +44-845-864-7747/ info@uniqsis.com.

Since 2007, Uniqsis has specialised in the design and supply of mesoscale continuous flow chemistry systems for a wide range of applications in chemical and pharmaceutical research. The company’s aim is to make flow chemistry easily accessible to both novices and experienced users.

 

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