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利用磁性颗粒在微流控芯片中实现有效混合。

Effective mixing in a microfluidic chip using magnetic particles.

作者信息

Lee Seung Hwan, van Noort Danny, Lee Ji Youn, Zhang Byoung-Tak, Park Tai Hyun

机构信息

School of Chemical and Biological Engineering, Institute of Bioengineering, Seoul National University, Seoul 151-744, Korea.

出版信息

Lab Chip. 2009 Feb 7;9(3):479-82. doi: 10.1039/b814371d. Epub 2008 Nov 18.

Abstract

We present a novel active mixing method in a microfluidic chip, where the controlled stirring of magnetic particles is used to achieve an effective mixing of fluids. To perform mixing, the ferromagnetic particles were embedded and manipulated under the influence of a rotating magnetic field. By aligning the magnetic beads along the magnetic field lines, rod-like structures are formed, functioning as small stir bars. Under higher flow conditions the particles did not form the typical rod structure but rather formed aggregates, which were even more beneficial for mixing. Our system reached a 96% mixing efficiency in a relatively short distance (800 microm) at a flow rate of 1.2-4.8 mm/s. These results demonstrate that our mixing method is useful for microfluidic devices with low aspect ratios and molecules with large molecular weights.

摘要

我们展示了一种微流控芯片中的新型主动混合方法,该方法利用对磁性颗粒的可控搅拌来实现流体的有效混合。为了进行混合,铁磁颗粒在旋转磁场的影响下被嵌入并操控。通过使磁珠沿磁力线排列,形成了棒状结构,其作用如同小搅拌棒。在较高流速条件下,颗粒并未形成典型的棒状结构,而是形成了聚集体,这对混合更为有利。我们的系统在流速为1.2 - 4.8毫米/秒时,在相对较短的距离(800微米)内达到了96%的混合效率。这些结果表明,我们的混合方法对于低纵横比的微流控设备以及大分子量分子是有用的。

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