This system uses advanced microfluidics technology to microscopically control the flow of liquids and gases in capillaries smaller than 1 mm in diameter. The university said the new method accelerates the kinetics of chemical reactions, ensures a homogeneous mixture, reduces the risk of dangerous reactions and allows for instant feedback.
This development will make it possible to synthesize materials for the production of glues, high-performance plastics, solvents and detergents more efficiently. The next stage of the project involves creating a metal gas-liquid separator to take samples under high pressure and make hundreds of measurements, said Alexander Guda, Deputy Director of the SFU International Research Institute of Smart Materials.
Source: Ferra
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