Flow-orthogonal bead oscillation in a microfluidic chip with a magnetic anisotropic flux-guide array

Stijn van Pelt; Roy Derks; Marco Matteucci; Mikkel Fougt Hansen; Andreas Dietzel

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Flow-orthogonal bead oscillation in a microfluidic chip with a magnetic anisotropic flux-guide array

机译：具有磁各向异性磁导阵列的微流控芯片中的正交流磁珠振荡

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摘要

A new concept for the manipulation of su-perparamagnetic beads inside a microfluidic chip is presented in this paper. The concept allows for bead actuation orthogonal to the flow direction inside a microchannel. Basic manipulation functionalities were studied by means of finite element simulations and results were oval-shaped steady state oscillations with bead velocities up to 500 μm/s. The width of the trajectory could be controlled by prescribing external field rotation. Successful verification experiments were performed on a prototype chip fabricated with excimer laser ablation in polycarbonate and electroforming of nickel flux-guides. Bead velocities up to 450 um/s were measured in a 75 μm wide channel. By prescribing the currents in the external quadrupole magnet, the shape of the bead trajectory could be controlled.

机译：本文提出了一种在微流控芯片中操纵超顺磁珠的新概念。该概念允许与微通道内部的流向正交的磁珠驱动。通过有限元模拟研究了基本的操纵功能，结果是珠状速度高达500μm/ s的椭圆形稳态振荡。可以通过规定外场旋转来控制轨迹的宽度。在原型芯片上进行了成功的验证实验，该原型芯片是用准分子激光烧蚀在聚碳酸酯中制成的，并电铸有镍助焊剂。在75μm宽的通道中测得的珠子速度高达450 um / s。通过规定外部四极磁体中的电流，可以控制磁珠轨迹的形状。

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来源
《Biomedical Microdevices》 |2011年第2期|p.353-359|共7页
作者
Stijn van Pelt; Roy Derks; Marco Matteucci; Mikkel Fougt Hansen; Andreas Dietzel;
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作者单位

Department of Mechanical Engineering,Micro- and NanoScale Engineering,Eindhoven University of Technology,PO Box 513, 5600 MB Eindhoven,The Netherlands;

Department of Mechanical Engineering,Micro- and NanoScale Engineering,Eindhoven University of Technology,PO Box 513, 5600 MB Eindhoven,The Netherlands;

Department of Mechanical Engineering,Micro- and NanoScale Engineering,Eindhoven University of Technology,PO Box 513, 5600 MB Eindhoven,The Netherlands;

Department of Micro- and Nanotechnology,Technical University of Denmark,DTU Nanotech, Building 345 East,2800 Kongens Lyngby, Denmark;

Department of Mechanical Engineering,Micro- and NanoScale Engineering,Eindhoven University of Technology,PO Box 513, 5600 MB Eindhoven,The Netherlands;

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正文语种 eng
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关键词
superparamagnetic beads; microfluidics; quadrupole magnet; shape-anisotropy; magnetic flux-guides;

机译：超顺磁珠微流体四极磁铁形状各向异性磁导;

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1. Optical Manipulation of Single Magnetic Beads in a Microwell Array on a Digital Microfluidic Chip [J] . Decrop Deborah, Brans Toon, Gijsenbergh Pieter, Analytical chemistry . 2016,第17期

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4. Single-bead arrays for fluorescence-based immunoassays on capillary-driven microfluidic chips [C] . Yuksel Temiz, Michel Lim, Emmanuel Delamarche Microfluidics, bioMEMS, and medical microsystems XIV . 2016

机译：单珠阵列，用于在毛细管驱动的微流控芯片上进行基于荧光的免疫测定
5. Development of a digital microfluidic lab-on-a-chip for automated immunoassay with magnetically responsive beads [D] . Sista, Ramakrishna 2007

机译：开发具有磁响应珠的自动免疫测定的数字微流芯片实验室
6. Flow-orthogonal bead oscillation in a microfluidic chip with a magnetic anisotropic flux-guide array [O] . Stijn van Pelt, Roy Derks, Marco Matteucci, -1

机译：具有磁各向异性磁导阵列的微流控芯片中的正交流磁珠振荡
7. Flow-orthogonal bead oscillation in a microfluidic chip with a magnetic anisotropic flux-guide array [O] . Van Pelt, Stijn, Derks, Roy, Matteucci, Marco, 2011

机译：具有磁各向异性磁通引导阵列的微流体芯片中的流动正交珠振荡

Flow-orthogonal bead oscillation in a microfluidic chip with a magnetic anisotropic flux-guide array

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