游动的细菌驱动微型齿轮。

Swimming bacteria power microscopic gears.

机构信息

Materials Science Division, Argonne National Laboratory, Argonne, IL 60439, USA.

出版信息

Proc Natl Acad Sci U S A. 2010 Jan 19;107(3):969-74. doi: 10.1073/pnas.0913015107. Epub 2009 Dec 18.

DOI:10.1073/pnas.0913015107

PMID:20080560

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2824308/

Abstract

Whereas the laws of thermodynamics prohibit extraction of useful work from the Brownian motion of particles in equilibrium, these motions can be "rectified" under nonequilibrium conditions, for example, in the presence of asymmetric geometrical obstacles. Here, we describe a class of systems in which aerobic bacteria Bacillus subtilis moving randomly in a fluid film power submillimeter gears and primitive systems of gears decorated with asymmetric teeth. The directional rotation is observed only in the regime of collective bacterial swimming and the gears' angular velocities depend on and can be controlled by the amount of oxygen available to the bacteria. The ability to harness and control the power of collective motions appears an important requirement for further development of mechanical systems driven by microorganisms.

摘要

热力学定律禁止从处于平衡状态的粒子的布朗运动中提取有用功，但这些运动可以在非平衡条件下“校正”，例如，在存在非对称几何障碍物的情况下。在这里，我们描述了一类系统，其中好氧细菌枯草芽孢杆菌在流体膜中随机移动，为亚毫米级齿轮和带有不对称齿的齿轮的原始系统提供动力。只有在细菌集体游动的状态下才会观察到定向旋转，并且齿轮的角速度取决于并可以通过细菌可用的氧气量来控制。利用和控制集体运动的能力似乎是进一步开发由微生物驱动的机械系统的重要要求。

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游动的细菌驱动微型齿轮。

Swimming bacteria power microscopic gears.

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游动的细菌驱动微型齿轮。

Swimming bacteria power microscopic gears.

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