Fully chip-embedded automation of a multi-step lab-on-a-chip process using a modularized timer circuit

For highly-integrated microfluidic systems, an actuation system is necessary to control the flow; however, the bulk of actuation devices including pumps or valves has impeded the broad application of integrated microfluidic systems. Here, we suggest a microfluidic process control method based on bui...

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Bibliographic Details
Published in:Lab on a chip 2017-11, Vol.17 (22), p.3891-3897
Main Authors: Kang, Junsu, Lee, Donghyeon, Heo, Young Jin, Chung, Wan Kyun
Format: Article
Language:English
Subjects:
Actuation
Automation
Circuit design
Logic circuits
Process controls
Signal generators
Signal processing
Timer circuits
Valves
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Summary:For highly-integrated microfluidic systems, an actuation system is necessary to control the flow; however, the bulk of actuation devices including pumps or valves has impeded the broad application of integrated microfluidic systems. Here, we suggest a microfluidic process control method based on built-in microfluidic circuits. The circuit is composed of a fluidic timer circuit and a pneumatic logic circuit. The fluidic timer circuit is a serial connection of modularized timer units, which sequentially pass high pressure to the pneumatic logic circuit. The pneumatic logic circuit is a NOR gate array designed to control the liquid-controlling process. By using the timer circuit as a built-in signal generator, multi-step processes could be done totally inside the microchip without any external controller. The timer circuit uses only two valves per unit, and the number of process steps can be extended without limitation by adding timer units. As a demonstration, an automation chip has been designed for a six-step droplet treatment, which entails 1) loading, 2) separation, 3) reagent injection, 4) incubation, 5) clearing and 6) unloading. Each process was successfully performed for a pre-defined step-time without any external control device.
ISSN:1473-0197
1473-0189
DOI:10.1039/c7lc00704c