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