EWOD和LDEP集成数字和模拟微流控

Yen-Chen Lin, K. Chuang, Tsu-Te Wang, C. Chiu, S. Fan
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引用次数: 9

摘要

研究了在集成芯片上分别提供数字和模拟微流控功能的EWOD(介质电润湿)和LDEP(液体介电电泳)技术。通过改变EWOD装置的外加电压和周围介质的频率,我们发现当以油为周围介质,施加100 kHz的交流信号时,液柱不再停留在EWOD驱动电极的中心上方,而是沿着EWOD驱动电极的细连接线绘制。本文描述了这种新现象,并将其视为LDEP效应。开发了三种集成数字和模拟微流体的基本工具,包括数模转换器、模数转换器和阀。结合EWOD和LDEP效应,液体可以在虚拟通道(模拟微流体)上泵送,该通道由通电的细LDEP电极线定义,连续地从储液器或数字化液滴(数字微流体)中泵送。相反,LDEP电极上的液体(模拟微流体)也可以泵送到EWOD电极上,并以精确体积的液滴形式数字化(数字微流体)。EWOD和LDEP可以选择性地在单个芯片上编程,使集成数字和模拟微流控成为现实
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Integrated Digital and Analog Microfluidics by EWOD and LDEP
EWOD (electrowetting-on-dielectric) and LDEP (liquid dielectrophoresis) are investigated to provide digital and analog microfluidic functions on an integrated chip respectively. By altering the frequency of the applied voltage and the surrounding medium of a EWOD device, we found that when using oil as surrounding medium and applying an AC signal 100 kHz, liquid column would be drawn and follow the thin connecting lines of the EWOD driving electrodes instead of remaining on top of the center of the EWOD driving electrodes. This new phenomenon is described in this paper and is regarded as a LDEP effect. Three fundamental tools for integrated digital and analog microfluidics are developed, including a digital-to-analog converter, an analog-to-digital converter, and a valve. Combining EWOD and LDEP effects, liquids can be pumped on a virtual channel (analog microfluidics), defined by energized thin LDEP electrode lines, continuously from liquid reservoir or from a digitized droplet (digital microfluidics). On the contrary, liquids on LDEP electrodes (analog microfluidics) can also be pumped on a EWOD electrode and be digitized in droplet forms with precise volumes (digital microfluidics). EWOD and LDEP can be selectively programmed on a single chip, making integrated digital and analog microfluidics a reality
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