Abstract:

As microfluidic technologies mature, accurate methods for the measurement of electroosmotic flow velocity on microfluidic chips are becoming increasingly important. A change of migration time of Rhodamine 123 (Rh123) at different pH values of the buffer was observed during the electrophoresis, and it was deduced that there is uncharged molecular form of Rh123 in alkaline solution because of deprotonation. Therefore, a method of direct measurement of electroosmotic flow velocity on microfluidic chip was developed based on the detection of migration time of the uncharged Rh123, because the migration speed of uncharged molecule is equal to the electroosmotic flow velocity. The electroosmotic flow velocity of glass microchip at pH 9.3 and 10.1 of the buffer was detected to be 3.9×10-4 cm2/(s·V) and 4.1×10-4 cm2/(s·V), respectively, which were in agreement with those obtained by the traditional method.

Key words: microfluidic chip, Rhodamine 123 , electroosmotic flow