微流控
下降(电信)
表面张力
桥接(联网)
纳米技术
机械
压力降
材料科学
流动聚焦
流量(数学)
物理
机械工程
计算机科学
工程类
热力学
计算机网络
作者
Charles N. Baroud,François Gallaire,Rémi Dangla
出处
期刊:Lab on a Chip
[Royal Society of Chemistry]
日期:2010-01-01
卷期号:10 (16): 2032-2032
被引量:1015
摘要
This critical review discusses the current understanding of the formation, transport, and merging of drops in microfluidics. We focus on the physical ingredients which determine the flow of drops in microchannels and recall classical results of fluid dynamics which help explain the observed behaviour. We begin by introducing the main physical ingredients that differentiate droplet microfluidics from single-phase microfluidics, namely the modifications to the flow and pressure fields that are introduced by the presence of interfacial tension. Then three practical aspects are studied in detail: (i) The formation of drops and the dominant interactions depending on the geometry in which they are formed. (ii) The transport of drops, namely the evaluation of drop velocity, the pressure-velocity relationships, and the flow field induced by the presence of the drop. (iii) The fusion of two drops, including different methods of bridging the liquid film between them which enables their merging.
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