Course contents
Introduction to Microfluidics
Basics of microchannel fabrication
3D printing organ-on-a-chip model
Implantable nano-structures materials for biomedical applications
Introduction to microfluidic biodevices with MEMS, nanotechnology for sensing applications
Printable and flexible electronics for next generation electronic devices
3D Printed smart microfluidic sensors
Miniaturized intelligent sensors and smart energy harvestors
Collective behaviour of active matter, magnetic particles, sperm cells
Wettability patterning, droplet manipulation, flow through porous membranes.
Flow behaviour in different bio models (cerebral aneurysm; stenotic artery
High throughput cell counting using droplet based microfluidics
Coins in microfluidics for microchannel circuits
Peptide nucleic acid fluorescent probes for detection of specific biomarkers for digital microfluidic system