Mobirise Mobirise v4.6.5

Chemical Hardware for 3D Printing


About Us

A Burlington-based start-up company majoring in the research and development of miniature hardware for increased-effectivity microwave-assisted sonochemistry.

Our Strategy

To bring the field-based electronic techniques into the on-demand desktop chemistry of a new age.


This Canadian start-up company was established following the R&D and findings at the Department of Electronic Systems, Norwegian University of Science and Technology, NTNU, Norway.


  1. G.A. Kouzaev, A method and apparatus for separate supply of microwave and mechanical energies to liquid reagents in coaxial rotating chemical reactors, UK Patent Application # GB1704095.7 dated on 15.03.2017.

  2. G.A. Kouzaev, S.V. Kapranov, Scalable reactor for microwave- and ultrasound-assisted chemistry, UK Patent Application # GB1504690.7 dated on 19.03.2015.

  3. Kapranov, S.V. and Kouzaev, G.A. (2019): Study of microwave heating of reference liquids in a coaxial waveguide reactor using the experimental, semi-analytical and numerical means, Int. Journal of Thermal Sciences, Vol. 140, P. 505-520.

  4. Kapranov, S.V. and Kouzaev, G.A. (2019): Nonlinear dynamics of dipoles in microwave electric field of a nanocoaxial tubular reactor, Molecular Physics. An Int. Journal at the Interface Between Chemistry and Physics, vol. 117, P. 489-506.

  5. Kouzaev, G.A. and Kapranov, S.V. (2019): Microwave miniature coaxial reactors for on-demand material synthesis. 3rd Int. Conf. in Eng. Applications (ICEA19), Azore, Portugal, 08-11 July 2019, (submitted).

  6. Kapranov, S.V. and Kouzaev, G.A. (2018): Effects of microwave electric fields on the translational diffusion of dipolar molecules in surface potential: A simulation study. Surface Science, vol. 667, P. 66-78.

  7. Kapranov, S.V. and Kouzaev, G.A. (2017): Models of water, methanol, and ethanol and their applications in the design of miniature microwave heating reactors, Int. Journal of Thermal Sciences, vol. 122, P. 53-73.

  8. Kapranov, S.V. and Kouzaev, G.A. (2016): A simulation study of microwave field effects on 3D orthorhombic lattice of rotating dipoles: short-range potential energy variation. European. Physics Journal B. (EPJB). Condensed Matter and Complex Systems, vol. 89, P. 126 (1-16).

  9. Kapranov, S.V. and Kouzaev, G.A. (2010): Debye relaxation mechanisms of microwave heating of near-critical polar gases, International Journal of Thermal Sciences, Vol. 49, P. 2319-2330

  10. Kouzaev, G.A. (2013): Applications of Advanced Electromagnetics. Components and Systems, Springer, 2013.




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