An approach to simulations of microfluidic devices is presented. Microfludic devices of different geometries, made of diamond and glass, have been analyzed with the Coventor™ software. Temperature gradients during the chip electrophoresis process have been analyzed. Diamond microfluidic devices are very advantageous over glass (or polymer) microfluidic devices, they dissipate Joule heat much more efficiently because of the highest thermal conductivity coefficient of diamond.
The aim of this study was to optimize the diamond microfluidic device with four microchannels. The temperature distributions in electrophoretic microchips of different geometries and different materials have been analyzed by the Coventor software. Diamond microfluidic devices are very advantageous over glass or polymer microfluidic devices; they dissipate Joule heat much more efficiently because of the highest thermal conductivity coefficient of diamond.
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