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Article type: Research Article
Authors: Suzuki, Yuma | Shimizu, Tetsuhide | Yang, Ming; *
Affiliations: Department of Intelligent Mechanical System, Graduate School of System Design, Tokyo Metropolitan University, 6-6, Asahigaoka, Hino-shi, Tokyo 191-0065, Japan
Correspondence: [*] Corresponding author: Ming Yang, Department of Intelligent Mechanical Systems, Graduate School of System Design, Tokyo Metropolitan University, 6-6, Asahigaoka, Hino-shi, Tokyo 191-0065, Japan. E-mail: [email protected]; Tel.: +8142 5858440; Fax: +8142 5858440.
Abstract: Background:The quantitative evaluation of the biomolecules transport with multi-physics in nano/micro scale is demanded in order to optimize the design of microfluidics device for the biomolecules detection with high detection sensitivity and rapid diagnosis. Objective:This paper aimed to investigate the effectivity of the computational simulation using the numerical model of the biomolecules transport with multi-physics near a microchannel surface on the development of biomolecules-detection devices. Methods:The biomolecules transport with fluid drag force, electric double layer (EDL) force, and van der Waals force was modeled by Newtonian Equation of motion. The model validity was verified in the influence of ion strength and flow velocity on biomolecules distribution near the surface compared with experimental results of previous studies. The influence of acting forces on its distribution near the surface was investigated by the simulation. Results:The trend of its distribution to ion strength and flow velocity was agreement with the experimental result by the combination of all acting forces. Furthermore, EDL force dominantly influenced its distribution near its surface compared with fluid drag force except for the case of high velocity and low ion strength. Conclusions:The knowledges from the simulation might be useful for the design of biomolecules-detection devices and the simulation can be expected to be applied on its development as the design tool for high detection sensitivity and rapid diagnosis in the future.
Keywords: Biomolecules transport, multiphysics, microfluidics, electric double layer, numerical modeling, computational simulation
DOI: 10.3233/BME-171696
Journal: Bio-Medical Materials and Engineering, vol. 28, no. 5, pp. 555-565, 2017
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