微流控
分离器(采油)
材料科学
色谱法
毛细管作用
萃取(化学)
水溶液
润湿
膜
液-液萃取
体积流量
连续相位调制
流体学
分析化学(期刊)
化学
纳米技术
有机化学
复合材料
物理
工程类
热力学
航空航天工程
电信
量子力学
生物化学
计算机科学
作者
Jason G. Kralj,Hemantkumar R. Sahoo,Klavs F. Jensen
出处
期刊:Lab on a Chip
[Royal Society of Chemistry]
日期:2006-11-24
卷期号:7 (2): 256-263
被引量:366
摘要
We describe continuous flow liquid-liquid phase separation in microfluidic devices based on capillary forces and selective wetting surfaces. Effective liquid-liquid phase separation is achieved by using a thin porous fluoropolymer membrane that selectively wets non-aqueous solvents, has average pore sizes in the 0.1-1 microm range, and has a high pore density for high separation throughput. Pressure drops throughout the microfluidic network are modelled and operating regimes for the membrane phase separator are determined based on hydrodynamic pressure drops and capillary forces. A microfluidic extraction device integrating mixing and phase separation is realized by using silicon micromachining. Modeling of the phase separator establishes the operating limits. The device is capable of completely separating several organic-aqueous and fluorous-aqueous liquid-liquid systems, even with high fractions of partially miscible compounds. In each case, extraction is equivalent to one equilibrium extraction stage.
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