磁驱动胶体转子在受限流体中的可控游动

Controlled swimming in confined fluids of magnetically actuated colloidal rotors.

作者信息

Tierno Pietro, Golestanian Ramin, Pagonabarraga Ignacio, Sagués Francesc

机构信息

Departament de Química Física, Universitat de Barcelona, Martí i Franquès 1, 08028 Barcelona, Spain.

出版信息

Phys Rev Lett. 2008 Nov 21;101(21):218304. doi: 10.1103/PhysRevLett.101.218304.

DOI:10.1103/PhysRevLett.101.218304

PMID:19113458

Abstract

We show that DNA-linked anisotropic doublets composed of paramagnetic colloidal particles can be endowed with controlled propulsion when floating above a flat plate and subjected to a magnetic field precessing around an axis parallel to the plate. The propulsion mechanism for this artificial swimmer does not involve deformations, and it makes use of the minimal two degrees of freedom needed to propel it at low Reynolds numbers. We combine experimental observations with a theoretical analysis that fully characterizes the propulsion velocity in terms of the strength and frequency of the actuating magnetic field.

摘要

我们表明，由顺磁性胶体颗粒组成的与DNA相连的各向异性双峰，当漂浮在平板上方并受到围绕平行于平板的轴进动的磁场作用时，可被赋予可控推进力。这种人造游泳器的推进机制不涉及变形，且利用了在低雷诺数下推进所需的最少两个自由度。我们将实验观察结果与理论分析相结合，该理论分析根据驱动磁场的强度和频率全面表征了推进速度。

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磁驱动胶体转子在受限流体中的可控游动

Controlled swimming in confined fluids of magnetically actuated colloidal rotors.

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