人工磁性纳米结构螺旋桨的可控推进

Controlled propulsion of artificial magnetic nanostructured propellers.

作者信息

Ghosh Ambarish, Fischer Peer

机构信息

Rowland Institute at Harvard, Harvard University, Cambridge, Massachusetts 02142, USA.

出版信息

Nano Lett. 2009 Jun;9(6):2243-5. doi: 10.1021/nl900186w.

DOI:10.1021/nl900186w

PMID:19413293

Abstract

For biomedical applications, such as targeted drug delivery and microsurgery, it is essential to develop a system of swimmers that can be propelled wirelessly in fluidic environments with good control. Here, we report the construction and operation of chiral colloidal propellers that can be navigated in water with micrometer-level precision using homogeneous magnetic fields. The propellers are made via nanostructured surfaces and can be produced in large numbers. The nanopropellers can carry chemicals, push loads, and act as local probes in rheological measurements.

摘要

对于生物医学应用，如靶向给药和显微手术，开发一种能在流体环境中以良好控制实现无线驱动的游动器系统至关重要。在此，我们报告了手性胶体螺旋桨的构建与操作，其可利用均匀磁场在水中以微米级精度导航。这些螺旋桨通过纳米结构表面制成，且能大量生产。纳米螺旋桨可携带化学物质、推动负载，并在流变学测量中充当局部探针。

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人工磁性纳米结构螺旋桨的可控推进

Controlled propulsion of artificial magnetic nanostructured propellers.

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