新技术表面微加工方法用于在各种衬底上获得基于微通道的系统

IF 0.1 0 THEATER Teatro e Storia Pub Date : 2005-12-19 DOI:10.1109/SMICND.2005.1558760

A. Coraci, C. Podaru, E. Manea, A. Ciuciumis, O. Corici

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引用次数: 6

摘要

在生物医学研究中使用微流控装置创造了临床上有用的技术和装置(用于生化反应室和物理颗粒分离)，或在IC芯片冷却应用中具有显着优势。在第一种情况下，由于这些微通道内的流体体积非常小，通常只有几纳升，因此所用的试剂和分析物的数量非常少。在第二种情况下，由于与芯片耗散表面直接接触，它们的热阻可以忽略不计。本文介绍了利用表面微加工技术在不同基底上制备微通道和微流控元件(如腔室)的新技术。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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New technological surface microfabrication methods used to obtain microchannels based systems onto various substrates

The use of microfluidic devices in biomedical research creates clinically useful technologies and devices (for biochemical reaction chambers, and physical particle separation), or in IC chip cooling applications has significant advantages. In the first case, because the fluid volumes within these microchannels are very small, usually several nanoliters, the amount of reagents and analytes used is quite small. In the second case, they present a negligible thermal resistance, due to direct contact with the chip dissipation surface. This paper presents some new technological methods used to prepare by surface microfabrication microchannels and other microfluidic elements, like chambers onto different substrates.

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