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Explores the fundamentals of diffusion in microfluidics, covering diffusion processes, self-diffusion of biological entities, diffusion coefficients, and mixing techniques.
Explores the simulation of a microfluidic H-Filter for molecular analyte extraction without membrane filters, focusing on diffusion control and concentration effects.
Explores the formation, manipulation, and encapsulation of droplets in microfluidic systems, highlighting the role of surfactants and different techniques for droplet control.
Explores inertial effects in microfluidic systems, emphasizing shear- and wall-induced forces on particles and their applications in filtering and cell trapping.
