The UBC Okanagan Digital Microfluidics Research Group is an interdisciplinary research group at University of British Columbia Okanagan that develops integrated devices for biochip applications. Lab-on-a-chip digital microfluidic devices are fabricated in digital architectures that merge micrometre-scale electrical circuitry with applications requiring dynamic , as voltage actuation signals from patterned electrodes are used to direct and actuate fluid flow within the chips. The structures are not application-specific. Fluid actuation signals for , splitting, and routing are set by the control software and can be reconfigured as needed and in real-time (unlike continuous-flow microfluidic structures incorporating micropumps, microvalves, and microchannels which are fabricated as permanent
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| - UBC Okanagan Digital Microfluidics (en)
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| - The UBC Okanagan Digital Microfluidics Research Group is an interdisciplinary research group at University of British Columbia Okanagan that develops integrated devices for biochip applications. Lab-on-a-chip digital microfluidic devices are fabricated in digital architectures that merge micrometre-scale electrical circuitry with applications requiring dynamic , as voltage actuation signals from patterned electrodes are used to direct and actuate fluid flow within the chips. The structures are not application-specific. Fluid actuation signals for , splitting, and routing are set by the control software and can be reconfigured as needed and in real-time (unlike continuous-flow microfluidic structures incorporating micropumps, microvalves, and microchannels which are fabricated as permanent (en)
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| - The UBC Okanagan Digital Microfluidics Research Group is an interdisciplinary research group at University of British Columbia Okanagan that develops integrated devices for biochip applications. Lab-on-a-chip digital microfluidic devices are fabricated in digital architectures that merge micrometre-scale electrical circuitry with applications requiring dynamic , as voltage actuation signals from patterned electrodes are used to direct and actuate fluid flow within the chips. The structures are not application-specific. Fluid actuation signals for , splitting, and routing are set by the control software and can be reconfigured as needed and in real-time (unlike continuous-flow microfluidic structures incorporating micropumps, microvalves, and microchannels which are fabricated as permanent application-specific structures). (en)
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