JM
J.M. Muganda
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1
Conference paper
(2017)
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Ronald Stoute, J.M. Muganda, S. Dahar, Aslihan Arslan, R.J.M Henderikx, P.C.M. van Stiphout, JMJ den Toonder, Ronald Dekker
Microfluidics has been identified as a revolutionizing technology for chemistry and biology, enabling cost-effective semi-automated experiments without extensive laboratory infrastructure. However, the complexity and number of simultaneous experiments is limited with current fabrication approaches. We present a novel CMOS compatible process to fabricate embedded microchannels that can greatly enhance the functionality and scalability of microfluidic experimentation. The feasibility of the fabrication process is demonstrated with a device to probe mechanical properties of cells before and after presenting them a stimulus.
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Microfluidics has been identified as a revolutionizing technology for chemistry and biology, enabling cost-effective semi-automated experiments without extensive laboratory infrastructure. However, the complexity and number of simultaneous experiments is limited with current fabrication approaches. We present a novel CMOS compatible process to fabricate embedded microchannels that can greatly enhance the functionality and scalability of microfluidic experimentation. The feasibility of the fabrication process is demonstrated with a device to probe mechanical properties of cells before and after presenting them a stimulus.