Concept

Paper-based microfluidics

Related lectures (32)

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.

Microfluidic Cartridges: Monitoring Metabolism and Toxicity

Discusses microfluidic cartridges for metabolism monitoring and the LiveSense project.

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

Diffusion: Fundamentals and Applications

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

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.

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.

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.

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.

Paper-based Sensors: Development and Applications

Explores the development and applications of paper-based sensors for diagnostic purposes, focusing on the detection of viral infections.

Laminar Flows: Microfluidics and Applications

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

Biomechanics in Organ-on-Chip Systems

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

Polymer Materials for MEMS

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

Microgel Fabrication: Microfluidic Device

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

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.

Surface tension: Capillary Effects

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

Microfluidics: Diffusion and Mixing

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

Inertial effects: Shear- and wall-induced forces

Explores inertial effects in microfluidic systems, emphasizing shear- and wall-induced forces on particles and their applications in filtering and cell trapping.

Interfacing & Packaging of Biochips

Explores biochip interfacing, packaging, sensor measurement, microfluidics, and startup setup in the biochip industry.

Immunoassays: Basics and Techniques

Covers the basics and techniques of immunoassays, including reaction kinetics, ELISA, chemiluminescence, and multiplex assays.