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不对称性和驱动力对气泡驱动催化微马达推进的影响。

Influence of Asymmetry and Driving Forces on the Propulsion of Bubble-Propelled Catalytic Micromotors.

作者信息

Hayakawa Masayuki, Onoe Hiroaki, Nagai Ken H, Takinoue Masahiro

机构信息

Department of Computational Intelligence and Systems Science, Tokyo Institute of Technology, Yokohama, Kanagawa 226-8502, Japan.

Department of Mechanical Engineering, Keio University, Yokohama, Kanagawa 223-8522, Japan.

出版信息

Micromachines (Basel). 2016 Dec 14;7(12):229. doi: 10.3390/mi7120229.

Abstract

Bubble-propelled catalytic micromotors have recently been attracting much attention. A bubble-propulsion mechanism has the advantage of producing a stronger force and higher speed than other mechanisms for catalytic micromotors, but the nature of the fluctuated bubble generation process affects the motions of the micromotors, making it difficult to control their motions. Thus, understanding of the influence of fluctuating bubble propulsion on the motions of catalytic micromotors is important in exploiting the advantages of bubble-propelled micromotors. Here, we report experimental demonstrations of the bubble-propelled motions of propeller-shaped micromotors and numerical analyses of the influence of fluctuating bubble propulsion on the motions of propeller-shaped micromotors. We found that motions such as trochoid-like motion and circular motion emerged depending on the magnitude or symmetricity of fluctuations in the bubble-propulsion process. We hope that those results will help in the construction and application of sophisticated bubble-propelled micromotors in the future.

摘要

气泡驱动的催化微马达最近备受关注。与催化微马达的其他驱动机制相比,气泡驱动机制具有产生更强力和更高速度的优势,但气泡产生过程的波动特性会影响微马达的运动,使其运动难以控制。因此,了解波动气泡驱动对催化微马达运动的影响对于发挥气泡驱动微马达的优势至关重要。在此,我们报告了螺旋桨形状微马达气泡驱动运动的实验演示以及波动气泡驱动对螺旋桨形状微马达运动影响的数值分析。我们发现,根据气泡驱动过程中波动的大小或对称性,会出现类似摆线运动和圆周运动等运动。我们希望这些结果将有助于未来构建和应用复杂的气泡驱动微马达。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e286/6190221/d0ff21d9a284/micromachines-07-00229-g001.jpg

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