Microfluidics Test Application Notes

Name Summary
Application Note: Superhydrophobic Coatings with Magnetic Particle Actuation for Droplet-Based Microfluidic Devices This application note presents three different interconnection techniques for interconnecting microtubes in microfluidics applications.
Application Note: Interconnecting Microtubes in Microfluidic Applications This application note presents three different interconnection techniques for interconnecting microtubes in microfluidics applications.
Application Note: An Assembly Technique for Reusable Microfluidic Chips with Electrical Interface This application note introduces an innovative assembly process to connect the electrical pads on the chip to corresponding electrical pads on the printed circuit board (PCB) interface.
Application Note: Removable PDMS-based Interconnector for Low-pressure Microfluidic Applications This application note presents a removable temperature-based polydimethylsiloxane (PDMS) interconnection technique for microfluidic prototyping purposes.
Application Note: A Novel Multi-electrical Channel Manipulation and Detection Platform for Microfluidic Applications This application note presents a novel multi-electrical channel manipulation and detection (MECMD) platform.
Application Note: Using NI PCI6233 for Multichannel Data Acquisition with CMC Microfluidic Carrier Platform Instructions to program NI PCI6233 for multichannel data acquisition
Application Note: Flow Injection Analysis System for Use in Spectroscopic Characterization of Photonic Devices in a Microfluidic Environment Description of a comprehensive flow injection analysis (FIA) system used for testing and characterization of photonic biosensors in a microfluidic environment
Application Note: Cell Detection and Manipulation Using Microfluidic Technology Process of single-cell detection and manipulation using microfluidic technology
Application Note: Automated Low Pressure Microfluidic Pumping System Description of a microfluidic pumping system based on pressure regulation and its integration into a microfluidic system to sense and manipulate biological particles
Application Note: Generating a Four-Phase High Voltage Signal for Performing Electrophoretic Experiments in Microfluidic Applications Description of the generation of a four-phase high-voltage signal using instrumentation readily available to university researchers
Application Note: Generating a Four-Phase High Voltage Signal for Performing Dielectrophoretic Experiments in Microfluidic Applications Description of a procedure to generate a four-phase, high frequency, high voltage, sinusoidal signal