What Is Microfluidics Used For?
Since its emergence, "Microfluidics" has proven to be a powerful tool linking the engineering world with life sciences. To learn more about how microfluidics can play a role in academic research and industry, check out the list of microfluidics applications below!
Microfluidics enhances the strength of organoids as 3D functional replicas of organs.
Organ-on-chip is one of the most popular microfluidic chips. Please click to learn more about this type of chip.
Microfluidic Cell Sorting
Microfluidic cell separation chips are highly effective, modular, and cost-effective.
Tumor Cell Capture
Microfluidic technology helps in isolating CTCs as potential determinants of cancer prognosis.
Microfluidic devices can help achieve accurate, high-throughput, and inexpensive next-generation sequencing.
Single-cell analysis has become one of the most important applications of microfluidics.
Crude Oil Extraction from Porous Rocks
Microfluidics is a new method that is very suitable for extracting crude oil mixed with pollutants or in a dynamic state in porous rocks.
The droplet microfluidic technology is a powerful tool for high-throughput analysis in the fields of biology and chemistry.
"Microfluidics" can be used in all stages of the development and production of vaccines.
Small Model Biology Research
Because they are of the right size, these multicellular model organisms can benefit from the development of microfluidic technology.
Microparticles and microfibers can be used in applications such as drug delivery and tissue engineering.
Gene Delivery on A Chip
Microfluidic gene delivery chips can transfer genetic or chemical substances into cells with higher efficiency.
Microfluidics provides a platform for point-of-care applications in diagnostics and environmental testing.
Microfluidic Method for Microarray
Microfluidics provides powerful tools for enhancing microarray measurement and microarray patterning techniques.
Microfluidic Drug Delivery Systems
Microfluidic chips can deliver precise doses of compounds to the human body and produce drug carriers.
Drug Toxicity Screening
Microfluidics provides a precise and controllable environment for analyzing the performance of new drug compounds.
Microfluidic technology can support regenerative medicine research in a variety of ways.
The microfluidic chip provides an effective method for the separation, detection and analysis of exosomes.
Sperm Analysis and Selection
Microfluidics can play an important role in sperm selection and semen analysis.
Nucleic Acid Amplification
Microfluidics is a suitable choice for non-isothermal and isothermal nucleic acid amplification methods.
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