Advanced Certificate in Bio-MEMS & Microfluidics
-- ViewingNowThe Advanced Certificate in Bio-MEMS & Microfluidics is a comprehensive course designed to equip learners with the essential skills required in the rapidly evolving field of Bio-MEMS and Microfluidics. This certification program focuses on the importance of integrating microfabrication technologies with biological systems for various applications such as medical diagnostics, drug delivery, and genomics.
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⢠Bio-MEMS & Microfluidics Fundamentals: An introduction to the principles and applications of Bio-MEMS (Bio-Microelectromechanical Systems) and microfluidics. This unit covers microfabrication technologies, surface chemistry, and fluid behavior at the microscale.
⢠Microfluidic Device Design: Students will learn the process of designing microfluidic devices, including the selection of materials, fabrication techniques, and integration of sensors and actuators. This unit will also cover the simulation and prototyping of microfluidic devices.
⢠Lab-on-a-Chip (LOC) Technologies: An exploration of Lab-on-a-Chip technologies, including their design, fabrication, and applications in biomedical research and diagnostics. This unit will cover topics such as micro Total Analysis Systems (¾TAS), digital microfluidics, and LOC for point-of-care diagnostics.
⢠Bio-MEMS & Microfluidics Applications: This unit will cover the applications of Bio-MEMS and microfluidics in various fields, including biomedical research, diagnostics, drug discovery, and environmental monitoring. Students will learn about the latest trends and developments in the field and their potential impact on the industry.
⢠Microfabrication Technologies: A deep dive into microfabrication technologies, including photolithography, etching, deposition, and bonding techniques. This unit will cover the advantages and limitations of each technology, as well as their applications in Bio-MEMS and microfluidics.
⢠Microfluidic Control Systems: This unit will cover the control systems used in microfluidic devices, including valves, pumps, and sensors. Students will learn about the principles of operation, design, and integration of these components into microfluidic devices.
⢠Biomaterials for Bio-MEMS & Microfluidics: An exploration of the biomaterials used in Bio-MEMS and microfluid
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