盐诱导纳米线阵列上细菌的自组装。

Salt-induced self-assembly of bacteria on nanowire arrays.

机构信息

Department of Chemistry, University of California , Berkeley, California 94720, United States.

出版信息

Nano Lett. 2014 Sep 10;14(9):5471-6. doi: 10.1021/nl502946j. Epub 2014 Aug 12.

Abstract

Studying bacteria-nanostructure interactions is crucial to gaining controllable interfacing of biotic and abiotic components in advanced biotechnologies. For bioelectrochemical systems, tunable cell-electrode architectures offer a path toward improving performance and discovering emergent properties. As such, Sporomusa ovata cells cultured on vertical silicon nanowire arrays formed filamentous cells and aligned parallel to the nanowires when grown in increasing ionic concentrations. Here, we propose a model describing the kinetic and the thermodynamic driving forces of bacteria-nanowire interactions.

摘要

研究细菌-纳米结构的相互作用对于在先进生物技术中获得生物和非生物成分的可控界面至关重要。对于生物电化学系统，可调谐的细胞-电极结构为提高性能和发现新兴特性提供了一条途径。因此，在离子浓度逐渐增加的情况下，在垂直硅纳米线阵列上培养的 Sporomusa ovata 细胞形成丝状细胞，并与纳米线平行排列。在这里，我们提出了一个描述细菌-纳米线相互作用的动力学和热力学驱动力的模型。

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盐诱导纳米线阵列上细菌的自组装。

Salt-induced self-assembly of bacteria on nanowire arrays.

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