Abstract
The integrated concepts of biology, physics, fluid dynamics, chemistry, material science, and microelectronics provide the foundation of the relatively young area of microfluidics. Various materials may be processed into tiny chips with microscale channels and chambers. Regarding PMMA material and production methods, microfluidic biosensor platform technology also focuses on enhancing rhodamine B's fluorescence via adding carbon nanotubes, with additional benefits including restricted detection, high sensitivity, high stability, repeatability., quick response analysis, low consumption of sample volume, high throughput, also ease of operation applications of these remarkable devices. Keywords: microfluidics, CO2 laser ablation; Confocal Laser Scanning Microscope, PMMA, Carbon nanotubes, fluorescent.
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