Microfluidic-integrated laser-controlled microactuators with on-chip microscopy imaging functionality

Authors
Jung, Jae HeeHan, ChaoLee, Seung AhKim, JinhoYang, Changhuei
Issue Date
2014-10-07
Publisher
Royal Society of Chemistry
Citation
Lab on a Chip, v.14, no.19, pp.3781 - 3789
Abstract
The fabrication of a novel microfluidic system, integrated with a set of laser-controlled microactuators on an ePetri on-chip microscopy platform, is presented in this paper. In the fully integrated microfluidic system, a set of novel thermally actuated paraffin-based microactuators, precisely controlled by programmed laser optics, was developed to regulate flow and to provide pumping of liquid solutions without external connections. The microfluidic chip was fabricated on a complementary metal-oxide-semiconductor (CMOS)-imaging sensor chip on an ePetri platform; this configuration provided real-time, wide field-of-view, high-resolution imaging using a sub-pixel sweeping microscopy technique. The system of microactuators, which consisted of microvalves and a micropump, operated well in the microfluidic channel with a focused near-infrared laser beam providing the actuation control. As a demonstration, we used our prototype to assess cell-drug interactions and to monitor cell growth directly within an incubator in real time. The powerful combination of laser-actuated microfluidics and chip-scale microscopy techniques represents a significant step forward in terms of a simple, robust, high-throughput, and highly compact analysis system for biomedical and bioscience applications.
Keywords
PHASE-CHANGE; MICROVALVES; MICROPUMPS; DEVICE; VALVES; FLOW; AMPLIFICATION; CAMPTOTHECIN; POLYMER; SYSTEMS; PHASE-CHANGE; MICROVALVES; MICROPUMPS; DEVICE; VALVES; FLOW; AMPLIFICATION; CAMPTOTHECIN; POLYMER; SYSTEMS; Microfluidic; Microscopy; Laser; Microactuator; Microvalve; Micropump; Paraffin; Super-resolution; On-chip; Cell
ISSN
1473-0197
URI
https://pubs.kist.re.kr/handle/201004/126249
DOI
10.1039/c4lc00790e
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KIST Article > 2014
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