M icrofluidic technology ha s been studied ever since the early 1990s , allowing researchers to stud y liquid transport rules on the micrometer and nanometer scales or process small amounts of fluidics using channels measuring from tens to hundreds of micrometers . Current advancements in microfluidic technology undoubtedly have enhanced its applications in life science and medical research , including food safety monitoring. What Makes Microfluidics Outstanding? Compared to traditional biochemical instruments that consume a large number of fluidic samples with large space occupied and complex operations, microinstruments based on biosensors and bioelectronics outperform traditional instruments with higher detection efficiency and improved accuracy. Micro total analysis systems and laboratory-on-a-chip systems are gradually applied in a wide range of biological analyses because microfluidic chips are feat...