数字微流体
微流控
表面张力
材料科学
流体学
粘度
纳米技术
基质(水族馆)
计算机科学
航空航天工程
工程类
电润湿
物理
光电子学
电介质
地质学
复合材料
海洋学
量子力学
作者
Junchang Guo,Dehui Wang,Qiangqiang Sun,Linxian Li,Huaixia Zhao,Dongsheng Wang,Jiaxi Cui,Longquan Chen,Xu Deng
标识
DOI:10.1002/admi.201900653
摘要
Abstract Droplet manipulation is of importance in a wide range of applications in biomedicine, chemical analysis, and synthesis, among other fields. Over the past decade, extensive efforts are made to develop different strategies of transporting droplets by using various external stimuli. However, these methods could fail to manipulate some complex liquids with a low surface tension, high viscosity, or corrosivity. Herein, a magnetic digital microfluidics platform (MDMP) that is capable of manipulating almost all liquid droplets is described. The MDMP is designed by combining a magnet‐controlled deformable substrate and a slippery liquid‐infused surface. Such a structure allows creating a site‐specific gravitational potential gradient to propel droplets under different conditions. It is demonstrated that this MDMP can rapidly and reversibly transport various liquids for specimen sorting, chemical reactions, and accelerating mixing. It is envisioned that this universal droplet manipulation device will lay the foundation to achieve a wide variety of autonomous open channel fluidic device applications.
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