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Microfluidics technology involves the manipulation and control of very small volumes of fluids, typically ranging from microliter (10^-6) to picoliter (10^-12), within microscopic channels and chambers that are typically on the order of tens to hundreds of micrometers in size. It utilizes a combination of physics, chemistry, biology, and engineering to design and fabricate devices that can perform various tasks with high precision and efficiency.
One of the key advantages of microfluidic technology is its ability to miniaturize and automate complex laboratory processes, enabling faster and more cost-effective experimental workflows. By efficiently controlling the flow of liquids and mixing of reagents at the microscale, researchers can achieve higher levels of sensitivity, throughput, and reproducibility compared to traditional macro-scale methods.
Microfluidic technology is also versatile and customizable, allowing for the integration of various functionalities within a single device. For example, microfluidic chips can incorporate sensors for real-time monitoring of biochemical reactions, as well as on-chip imaging systems for visualizing cellular processes.
Overall, microfluidic technology holds great promise for advancing research in fields such as biotechnology, chemical synthesis, drug development, environmental monitoring, food science, as well as for enabling new diagnostic tools and therapeutic applications in healthcare.
STEMart uses microfluidics technology to offer a wide range of services which include but not limit to:
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