Modeling multilayered MEMS-based micro-fluidic systems

被引：0

作者：

Shekhar Bhansali

Helen Benjamin

Vandana Upadhyay

H. Thurman Henderson

Chong H. Ahn

Nihat Okulan

Kwang Wook Oh

机构：

[1] the University of South Florida,the Nanomaterials and Nanomanufacturing Research Center, Department of Electrical Engineering

[2] the Center for Microelectronic Sensors and MEMS,Department of Electrical & Computer Engineering and Computer Science

[3] the University of Cincinnati,undefined

来源：

JOM | 2004年 / 56卷

关键词：

Electrical Impedance Tomography; High Pressure Drop; Electrochemical Immunoassay; Inlet Length; Voltage Potential Difference;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

This article describes the design, fabrication, and simulation of two micro-electromechanical systems-based micro-fluidic systems. The first system, a lab-on-a-chip, enables electrochemical immunoassay-based chemical/biological detection. The second is a micro-fluidic bio-impedance sensor. The relevance of fluidic dynamics in micro-fluidic channels is discussed in context of fluid paths and misalignments in the channels that appear during multi-level structure integration. Also discussed is the effect of channel dimensions on the flow profile and on performance within the micro-systems.

引用

页码：57 / 61

页数：4

共 6 条

[1]

Janata J.(1998)Chemical Sensors Analytical Chemistry 70 179R-208R

[2]

Kuhn L.S.(1998)Biosensors: Blockbuster or Bomb? The Electrochemical Society Interface 7 26-31

[3]

Choi J.-W.(2000)A New Magnetic Bead-Based Filterless Bio-Separator for Integrated Bio-Molecule Detection Systems Sensors and Actuators B 68 34-39

[4]

Boone K.(1997)Imaging with Electricity; Report of the European Concerted Action on Impedance Tomography Journal of Medical Engineering and Technology 21 201-232

[5]

Barber D.(undefined)undefined undefined undefined undefined-undefined

[6]

Brown B.(undefined)undefined undefined undefined undefined-undefined

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