Ideal for high throughput applications, fast mixing-dependent reactions and fast, highly exothermic reactions requiring temperature control! 

A range of ingenious glass static mixer blocks designed by Uniqsis to provide efficient turbulent mixing throughout the block. Precision machined from borosilicate glass and chemically inert, the mixer blocks incorporate 1 mm id channels with active mixing geometries. These promote both diffusional and turbulent mixing, as well as functioning as very efficient heat exchangers. Static mixer chips may also be utilised to promote efficient emulsion formation in multiphasic reactions thereby leading to significantly enhanced rates of reaction in favourable cases.

Mixer blocks can be attached to the FlowSyn column module or to FlowSyn Cold for heating and/or cooling, with reagent tempered prior to mixing.

Rapid mixing in 1 mm id channels
Choice of A +B or (A+B) + C static mixer geometries
Precise temperature controlled mixing
Manufactured from borosilicate glass
Simple screw connections

Asynt Ltd offer a wide range in laboratory equipment from benchtop to pilot scale. Our versatile DrySyn heating blocks provide excellent thermal performance without the associated risks of using standard oil-based systems and, when teamed with the Asynt CondenSyn air-condenser, will not only help improve sustainability but will also save you money.

Other areas we cover include Electrochemistry, photochemistry, flow chemistry, parallel synthesis, pressure reactors, evaporation and more. We offer off-the-shelf solutions as well as fully customisable systems: such as our ReactoMate jacketed vessels which can scale up from 100 mL to 100 L.

Asynt are committed to investing in new technologies that respond to the real demands of industry and academia, improving efficiency, sustainability and safety.

Asynt acquired flow chemistry specialists, Uniqsis, in 2024 and have incorporated this highly-respected range of apparatus into the Asynt catalogue where it compliments the existing innovative flow and photochemistry solutions.