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Design and Fabrication of Multichannel PDMS Microfluidic
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Abstract
Microfluidic delivers miniaturized fluidic networks for processing liquids in the microliter range. In the recent years, lab-on-chip (LOC) is become a main tool for point-of-care (POC) diagnostic especially in the medical field. In this paper, we presented a design and fabrication on multi disease analysis using single chip via delivery of fluid with the multiple transducers is the pathway of multi-channel microfluidic based LOC’s. 3 in 1 nano biosensor kit was attached with the microfluidic to produce nano-biolab-on-chip (NBLOC). The multi channels microfluidic chip was designed including the micro channels, one inlet, three outlet and sensor contact area. The microfluidic chip was designed to include multiplex detection for pathogen that consists of multiple channels of simultaneous results. The LOC system was designed using Design Spark Mechanical software and PDMS was used as a medium of the microfluidic. The microfluidic mold and PDMS microfluidic morphological properties have been characterized by using low power microscope (LPM), high power microscope (HPM) and surface profiler. The LOC system physical was experimental by dropping food coloring through the inlet and collecting at the sensor contact area outlet.
Title: Design and Fabrication of Multichannel PDMS Microfluidic
Description:
Abstract
Microfluidic delivers miniaturized fluidic networks for processing liquids in the microliter range.
In the recent years, lab-on-chip (LOC) is become a main tool for point-of-care (POC) diagnostic especially in the medical field.
In this paper, we presented a design and fabrication on multi disease analysis using single chip via delivery of fluid with the multiple transducers is the pathway of multi-channel microfluidic based LOC’s.
3 in 1 nano biosensor kit was attached with the microfluidic to produce nano-biolab-on-chip (NBLOC).
The multi channels microfluidic chip was designed including the micro channels, one inlet, three outlet and sensor contact area.
The microfluidic chip was designed to include multiplex detection for pathogen that consists of multiple channels of simultaneous results.
The LOC system was designed using Design Spark Mechanical software and PDMS was used as a medium of the microfluidic.
The microfluidic mold and PDMS microfluidic morphological properties have been characterized by using low power microscope (LPM), high power microscope (HPM) and surface profiler.
The LOC system physical was experimental by dropping food coloring through the inlet and collecting at the sensor contact area outlet.
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