In other
words, the electroosmotic flow rate can be calculated by monitoring the dynamic flowing process of the fluorescent dye from one microchannel to another via the nanochannel array. Assuming that the concentration of the fluorescent dye is c, the corresponding light intensity is I, the channel width and depth are w and d, respectively, the Histone Acetyltransferase inhibitor relation of I and c can be written as (4) The microchannel was measured to be 1,800 × 333 (599,400 buy URMC-099 pixels) via the image capturing software, and it corresponds to the total volume of one main channel in the viewing field: V A = L × w × d = 1,638 × 300 × 12 μm3 = 5,896,800 μm3. This means that 1 pixel in the figure stands for 5,896,800 μm3 / 599,400 = 9.837838 μm3. For another channel with the same depth of 12 μm, the concentration for each pixel is calculated by c i = (I i - b) / k. Thus, the corresponding volume pumped from channel A to channel B in t’s can be obtained from (5) where 50 is the original concentration of FITC (50 nM) and (c i / 50) is the dilution factor after pumping from one channel to another channel. Hence, the pumping rate can be calculated by (6) Results and discussion Calibration of fluorescent intensity as a function of dye concentration In order to enhance the visualization
of microflow, light-emitting molecules such as fluorescent or phosphorescent ones are typically employed to increase the signal contrast [20]. In order to obtain the linear relationship of the fluorescent intensity of FITC to the dye concentration, images of microchannel filling with solutions of different dye concentrations from 0.3 to 30 nM were taken and analyzed. Fourteen sets of data corresponding Selleck NSC 683864 to different dye concentrations were taken, and each set was measured for three times. The photo-bleaching effect was not observed in our experiment. Fluorescent intensity was analyzed by MATLAB (MathWorks, Natick, MA, USA) for each dataset. The results were plotted Terminal deoxynucleotidyl transferase in Figure 3 and fitted to obtain the relation I = 5.1076 × c + 5.4242. Figure 3 Relation of fluorescent intensity with respect to FITC concentration in the main channel of our device. A linear relation was obtained by fitting the data using Origin. Here,
the unit of dye concentration is nanomolar. It is noted that the interception of the fitted line is not ideally zero due to the systematic error from the CCD in detecting a very weak light signal as shown by the fluctuation in the measured intensity in Figure 3 when the dye concentration is very low (lower than 5 nM). However, the fluorescent intensity of the dye concentration greater than 5 nM indicates a good linear relation. Pumping rate vs. applied electric voltage Fluid was pumped from channel A to channel B through the nanochannel array when the DC bias existed between them. It is suggested that the resulting EO flow has the same direction as the electric field for our device although the PDMS was used as one side of the square channel wall.