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A Novel Self-Activated Mechanism for Stable Liquid Transportation Capable of Continuous-Flow and Real-time Microfluidic PCRs
D.Wu; B.Shi; B.Li; W.M.Wu
2019
发表期刊Micromachines
卷号10期号:6页码:14
摘要The self-activated micropump capable of velocity-stable transport for both single-phased plug and double-phased droplet through long flow distance inside 3D microchannel is one dream of microfluidic scientists. While several types of passive micropumps have been developed based on different actuation mechanisms, until today, it is still one bottleneck to realize such a satisfied self-activated micropump for the stable delivery of both single and double-phased liquid inside long microchannel (e.g., several meters), due to the lack of innovative mechanism in previous methods. To solve this problem, in this article, we propose a new self-activated pumping mechanism. Herein, an end-opened gas-impermeable quartz capillary is utilized for passive transport. Mechanism of this micropump is systemically studied by both the mathematical modeling and the experimental verifications. Based on the flow assays, it totally confirmed a different pumping principle in this paper, as compared with our previous works. The R-2 value of the overall flow rates inside the 3D microchannel is confirmed as high as 0.999, which is much more homogeneous than other passive pumping formats. Finally, this novel micropump is applied to continuous-flow real-time PCRs (both plug-type and microdroplet-type), with the amplification efficiency reaching 91.5% of the commercial PCR cycler instrument.
关键词self-activated fluidic mechanism,microdroplet,3D microchannel,real-time PCR,house-made setup,polymerase-chain-reaction,sample injection,syringe,pump,micropump,system,permeability,microchannel,microdevice,Science & Technology - Other Topics,Instruments & Instrumentation
DOI10.3390/mi10060350
收录类别SCI ; EI
语种英语
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被引频次:4[WOS]   [WOS记录]     [WOS相关记录]
文献类型期刊论文
条目标识符http://ir.ciomp.ac.cn/handle/181722/62954
专题中国科学院长春光学精密机械与物理研究所
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GB/T 7714
D.Wu,B.Shi,B.Li,et al. A Novel Self-Activated Mechanism for Stable Liquid Transportation Capable of Continuous-Flow and Real-time Microfluidic PCRs[J]. Micromachines,2019,10(6):14.
APA D.Wu,B.Shi,B.Li,&W.M.Wu.(2019).A Novel Self-Activated Mechanism for Stable Liquid Transportation Capable of Continuous-Flow and Real-time Microfluidic PCRs.Micromachines,10(6),14.
MLA D.Wu,et al."A Novel Self-Activated Mechanism for Stable Liquid Transportation Capable of Continuous-Flow and Real-time Microfluidic PCRs".Micromachines 10.6(2019):14.
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