Fine Tune work flow

Miniaturisation of various devices and systems has become a popular trend in many areas of modern nanotechnology such as microelectronics, optics, etc. In particular, this is very important in creating chemical or electrochemical sensors where the amount of sample required for the analysis is a critical parameter and must be minimized. In this work we will focus on a micrometric channel flow system. We will call such miniaturised flow cells microfluidic systems , i.e. cells with one or more dimensions being of the order of a few microns. Such microfluidic channels have kinetic and analytical properties which can be finely tuned as a function of the hydrodynamic flow. However, presently, there is no simple and direct method to monitor the corresponding flows in. situ. 

The analysis showed very small differences in air temperature around the control room. One work station measured a little cooler than the others, and it was determined that the air-conditioning equipment in the direct vicinity sometimes created a slight cooling draft. Likewise, the workstation in front of it was a little warmer. The differences are very small, however, and the air conditioning system installed in this example has over 20 possible air-flow patterns and a wide range of adjustment. The small differences noted appear to fall within the domain of fine tuning. 

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