Microfluidic device for biocells manipulation and measurement

M. Avram, C. Iliescu, M. Volmer, F. S. Iliescu, A. Avram
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Abstract

In this work we present a study of the interaction between the magnetic particles used in biological applications and the GMR sensor. The fractional change in resistance, and hence the sensitivity, will be maximized by matching, as far as possible, the size of the sensor to the size of the beads and by carefully positioning the beads over the sensor. We found, by micromagnetic simulations, that the amount of the surface coverage with magnetic particles may affect the magnetization curve of the sensor and will change the field dependence of his GMR response.
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用于生物细胞操作和测量的微流控装置
在这项工作中,我们提出了用于生物应用的磁性颗粒与GMR传感器之间相互作用的研究。通过尽可能地使传感器的尺寸与磁珠的尺寸相匹配,并小心地将磁珠放置在传感器上,电阻的微小变化,从而使灵敏度最大化。通过微磁模拟,我们发现磁性颗粒表面覆盖的大小可能会影响传感器的磁化曲线,并改变其GMR响应的场依赖性。
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