Concept

Droplet-based microfluidics

Related lectures (32)

Explores biomechanics in organ-on-chip systems, covering advantages, fabrication methods, mechanical stimuli, and cell analysis techniques.

Philippe Renault: A Journey in Micro-Technology

Honors Philippe Renault's journey in micro-technology, highlighting his pivotal role in establishing the CMI at EPFL.

Microsystems for Bioseparation

Explores bioseparation methodologies, essential for biological processing, including capillary electrophoresis and microchip chromatography.

Diffusion: Fundamentals and Applications

Explores the fundamentals of diffusion in microfluidics, covering diffusion processes, self-diffusion of biological entities, diffusion coefficients, and mixing techniques.

Droplets: Formation and Manipulation

Explores the formation, manipulation, and encapsulation of droplets in microfluidic systems, highlighting the role of surfactants and different techniques for droplet control.

Organ-on-Chip: Biomedical Research and Cancer Modeling

Explores Organ-on-Chip technology for biomedical research and cancer modeling, showcasing its impact on drug development and disease understanding.

Microfluidics: Diffusion and Mixing

Explores diffusion principles, mixing in laminar flow, bacteria nutrition, microelectrode diffusion layers, liquid chromatography, and optimal flow speeds.

Microfluidic H-Filter: Scaling Laws & Simulations

Explores the simulation of a microfluidic H-Filter for molecular analyte extraction without membrane filters, focusing on diffusion control and concentration effects.

Biosensors Fundamentals: Lab-on-Chip Systems

Covers the fundamentals of biosensors and electronic biochips, including sensors performance and diagnostic tests.

Organ Chip Technology

Explores organ chip technology, emphasizing tissue engineering, micro-nanofabrication, and sensor integration for real-time analysis.

3D Printing Glass: Transparent Fused Silica

Explores the process of 3D printing transparent fused silica glass and its applications in optics, photonics, and biomedical engineering.

Microfluidic Filters: Techniques and Applications

Explores techniques for filtering particles in microfluidics, including cross-flow filters and pinched flow fractionation, addressing challenges and alternative methods.

Paper: Capillary Flow Progression

Explores capillary flow progression in paper microfluidics, lateral flow assays, gold nanoparticles in bioassays, automated LFA readers, and test results evaluation.

Microgel Fabrication: Microfluidic Device

Explores creating microgels with microfluidics, involving design, testing, and production of uniform microgels.

Laminar Flows: Microfluidics and Applications

Explores laminar flows in microfluidics, including flow profiles, hydrodynamic focusing, bioprinting, cell lysis, and fluorescence-assisted cell sorting.

Fluid Dynamics: Microfluidics

Explores microfluidics, covering continuum and Knudsen flow, damping effects, diffusion in liquids, liquid chromatography, and shear-driven chromatography.

Polymer Materials for MEMS

Explores polymer materials for MEMS, discussing their properties and applications in micro-electro-mechanical systems.

Microfluidic Valves

Covers the principles and applications of microfluidic valves in various designs.

Cell Traps: Microfluidic Devices and Arrays

Explores microfluidic cell trapping, array technologies, and immunocapture methods for single cells, highlighting the importance of studying individual cell behavior.

Surface tension: Capillary Effects

Explores surface tension effects in microfluidic channels and capillary stop valves.