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- Title
Minimization of MEDA Biochip-Size in Droplet Routing.
- Authors
Shiro, Chiharu; Nishikawa, Hiroki; Kong, Xiangbo; Tomiyama, Hiroyuki; Yamashita, Shigeru
- Abstract
With the increasing demand for fast, accurate, and reliable biological sensor systems, miniaturized systems have been aimed at droplet-based sensor systems and have been promising. A micro-electrode dot array (MEDA) biochip, which is one kind of the miniaturized systems for biochemical protocols such as dispensing, dilutions, mixing, and so on, has become widespread due to enabling dynamical control of the droplets in microfluidic manipulations. In MEDA biochips, the electrowetting-on-dielectric (EWOD) technique stands out since it can actuate droplets with nano/picoliter volumes. Microelectrode cells on MEDA actuate multiple droplets simultaneously to route locations for the purpose of the biochemical operations. Taking advantage of the feature, droplets are often routed in parallel to achieve high-throughput outcomes. Regarding parallel manipulation of multiple droplets, however, the droplets are known to be initially placed at a distant position to avoid undesirable mixing. The droplets thus result in traveling a long way for a manipulation, and the required biochip size for routing is also enlarged. This paper proposes a routing method for droplets to reduce the biochip size on a MEDA biochip with the allowance of splitting during routing operations. We mathematically derive the routing problem, and the experiments demonstrate that our proposal can significantly reduce the biochip size by 70.8% on average, compared to the state-of-the-art method.
- Subjects
BIOSENSORS; BIOLOGICAL systems; BIOCHIPS; MATHEMATICAL programming; MICROELECTRODES
- Publication
Biosensors (2079-6374), 2022, Vol 12, Issue 5, p277
- ISSN
2079-6374
- Publication type
Article
- DOI
10.3390/bios12050277