Our focus is to understand the Interfacial Transport Processes and Digital Microfluidics and Micro Heat Spreaders
-
Characterization and quantification of transport in micro-scale systems
-
Design and development of micro-scale heat spreaders for cooling of electronic components
-
Precise movement of droplets using Electrowetting on Dielectric (EWOD) and modified surfaces with chemical gradients
-
Biological processes in small confinements, e.g. in microchannels and droplets
-
Effect of electric field on aggregated protein
-
Study of protein nanoparticle interaction
-
Formation and propagation of cracks during drying of microdroplets
-
Digital microfluidics (DMF)
-
Development of low-cost diagnostic devices (Paper-based microfluidics and Centrifugal microfluidics (i.e. Lab-on-a-compact-disk))
-
Flow hydrodynamics through bio-mimetic channels
-
Flow pattern of biological molecules for diagnosis
-
Optofluidics
