Abstract
Development of diagnostic technique of microfluidic or lab-on-a-chip (LOCs) is currently of great interest for researchers and inventors for their many advantages. It can be used as a real laboratory was many ways to help to the diagnosis faster. This research aims to develop Polydimethylsiloxane (PDMS) lab-on-a-chip (LOCs) which were produced from different molds; the silicon wafer mold and the stainless mold to investigate the flow of the biological sample as the flow in nanochannels. In addition, this research proposes a means to leakage and the blockage of the channel flow. The experimental results were found that the LOCs casted from the silicon wafer mold sandwiched by both the plasma cleaner machine and H shaped acrylic sheets showed leakages around the electrode areas because the first new electrodes were too thick, the proper thickness of the nickel electrode was at 0.05 millimeters. The LOCs casted from the stainless mold were inserted by the nickel electrodes produced by the from the prototype shaped electroplating process; this LOCs using nickel plated electrodes 2 times to make a groove on the nickel electrode backsides when pouring the PDMS into the LOCs casted from the stainless mold. It was found that PDMS was able to flow under the nickel electrode and the PDMS sheet could stick with the glass slide smoothly. In conclusion, it was possible to develop these LOC designs and new electrode fabrications continually under helps from Micro-Electro-Mechanical system, Thailand National Electronics and Computer Technology Center, since causes of the LOC problems were found, and demonstrated the feasibility of developing the LOCs for chemical detection and disease diagnostics.
Highlights
Lab-on-a-chip or LOC devices are miniature laboratories built on a thin glass or plastic chip of several centimeters in dimensions
This research aims to develop Polydimethylsiloxane (PDMS) lab-on-a-chip (LOCs) which were produced from different molds; the silicon wafer mold and the stainless mold to investigate the flow of the biological sample as the flow in nanochannels
The chicken blood was chosen as the biological sample, taken from the chicken by the professional caretaker and prepared by mixing the blood with the ethylenediaminetetraacetic acid (EDTA) as the anticoagulant solution, we already found that the suitable anticoagulant-sample ratio for the chicken sample at 1:1 by volume from our previous work [2, 17]
Summary
Lab-on-a-chip or LOC devices are miniature laboratories built on a thin glass or plastic chip of several centimeters in dimensions. The PDMS LOC chamber is made from polydimethylsiloxane by solven casting and drilling. These small devices can duplicate the specialized functions as their room-sized counterparts in clinical. Published under licence by IOP Publishing Ltd diagnoses. The advantages of these devices include significantly reduced reagent consumption, short analysis time, automation, and portability [1, 2]. When the dielectrophoresis is positive, the particle moves towards the locations with the greatest electric field. If the dielectrophoresis is negative, the particles are pushed from the locations with the greatest electric field [2, 4,5]
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