微流体技术

  • 网络Microfluidics Technology;microfluidics;microfluidic technique;Microfluidic Technology
微流体技术微流体技术
  1. 微流体技术在电子芯片冷却中的应用研究进展

    Application prospects of microfluidics technology in electronic chip cooling research

  2. 或许在将来,化学家们能使用微流体技术来研究其他复杂的有关不同生理功能的连锁反应。

    In the future , chemists might now be able to apply microfluidics to the study of other complex reaction networks that control various biological functions .

  3. 微流体技术是近年来兴起的一种前沿技术,气液两相流是其重要的研究内容。

    And gas-liquid two-phase flow is an important research project in microfluidics .

  4. 伴随微电子机械系统的发展,微流体技术成为微电子机械领域研究的热门。

    With the rapid development of MEMS technology , micro-fluids technology has been becoming one of the hot research domains of MEMS step by step .

  5. 微流体芯片技术在ABO血型基因分型中的应用

    Application of Microfluidic Chip Analytical Systems in ABO Genotyping

  6. 基于微流体数字化技术的微化学反应器

    Micro Chemical Reactor Based on the Digitalization Technology of Micro fluid

  7. 微流体数字化技术的研究在基本概念上和理论上有原创性,对微流体系统的研究和技术进步有重要意义。

    There are some creative theories in the micro-fluidic digital technology .

  8. 基于微流体数字化技术,设计了可用于数字化粉体微输送实验系统的调节装置与微喷嘴。

    Based on the Digitalization of Microfluids Technology , the regulating device and micro-nozzles were designed .

  9. 微流体数字化技术是南京理工大学微系统研究室最新取得的重要研究成果。

    The Digitalization of Microfluids Technology is an important research of The Micro-system Lab in Nanjing University of Science and Technology lately .

  10. 本论文以微流体数字化技术为起点,研究自动化细胞注射中微操作与微注射技术。

    Base on the Digitalization of Micro-Fluids , the technologies of micro-manipulation and microinjection is presented for automatic cell injection in this paper .

  11. 论文介绍了一种制作基因芯片的新技术&基于微流体数字化技术的数字化非接触式点样技术并对其进行了实验研究。

    A new noncontact technology called Digital Noncontact Printing , which is based on Micro Fluidic Digital Technology , is discussed in this thesis .

  12. 在此基础上,提出了微流体数字化技术用压电驱动控制系统的特殊设计要求。

    And it proposed the special design requirements of piezoelectric driving control system , which were applied for Digitalization of Microfluidic technology by above conclusions .

  13. 本论文是对微流体数字化技术中所涉及微器件的测量进行的相关实验研究。

    In this paper , the micro measurement researches of the glass-micropipette and glass-microconduit which are mentioned in The Digitalization of Microfluids Technology above are discussed .

  14. 提出了一种基于微流体数字化技术的规整分散的(O1/W/O2)型双重乳液制备方法。

    A new method of preparing standardized dispersed ( O1 / W / O2 ) double emulsions is proposed on the basis of digitalization of microfluids technology .

  15. 研究表明基于微流体数字化技术的粉体微输送系统具有输送量小、可控性高、稳定性好等特点。

    The results showed that the digital powder micro conveying experimental system based on the Digitalization of Microfluids Technology had the following characteristics : tiny conveying throughput , high controllability , and good stability .

  16. 然后提出了一种新型船舶生活污水快速检测装置设计方案,此装置基于微流体芯片技术和激光诱导荧光检测原理,对生活污水中的大肠杆菌数进行快速定量检测。

    This paper proposes a new ship sewage rapid detection device design , this device is based on a microfluidic chip technology and laser-induced fluorescence detection principle , rapid quantitative detection of the number of E. coli in the sewage aboard ships .

  17. 微流体实验技术的研究是微流体器件发展的迫切需要,它不仅可以提供测量微流体器件性能必备的工具,而且对于探索微观尺度流体的传输机制具有极为重要的意义。

    S : Urgently required by the developments of micro fluidics , experimental technologies for micro fluids are not only necessary for measurements on performances of micro fluidic devices , but also important to the explorations on transport mechanisms of fluids at micro scale .

  18. 微流体系统驱动技术的研究进展

    Research on the Driving-Methods of Micro-Fluidic System

  19. 微流体数字化喷射技术及其在微混合中的应用研究

    Research on Digital Micro Jetting Technology and Its Application in Micro Mixing for Micro Fluidic System

  20. 本文提出一种基于微流体数字化喷射技术的直写导线技术。

    A novel Direct Write technology based on micro-fluid 's digital jet was shown in this paper .

  21. 该技术以微流体数字化喷射技术作为直写材料的输送手段,以化学沉积银作为导线材料的生成方式。

    Technology of micro-fluid 's digital jet was used transferring Direct Write material , and chemical deposition of Ag produced material of conductive lines .

  22. 随着MEMS技术在生物医学工程领域的广泛应用,微流体驱动与控制技术的研究已逐渐成为MEMS研究的一个热点。

    With the extensive application of Micro-electromechanical System ( MEMS ) in the domain of BME , fluid driving and controlling technique has become one of the research hotspots of MEMS technique .

  23. 微流体驱动与控制技术研究进展

    Progresses on technologies of driving and controlling micro fluids

  24. 微流体离散点样技术

    Research on discrete spotting technology of micro-fluid

  25. 本文致力于一种新原理的微流体驱动与控制技术&超声行波微流体驱动和控制技术的研究。

    In this paper , a new technique - ultrasonic traveling wave microflow driving & controlling technique is presented .

  26. 近年来,微流体的驱动控制技术引起了越来越多人的注意。表面张力驱动是微流体器件中流体驱动的一种重要方式,其实现依赖于润湿性表面的可控性。

    In recent years , the preparation of microfluidic driving technology has attract more and more attention , and controllable surface wettability plays a key role in its realization .

  27. 本文在数字图像处理技术的基础上,研究了微流体的流场测试技术,提出了一种新的全流场速度计算方法,并且分析了它在油液污染实时分析系统中的应用。

    On the basis of digital image processing technology , we made a research of measurement technology of micro flow field , brought forward a new velocity calculation method of whole flow field , and analysed its application in oil contamination on time analysis ststem .

  28. 微流控分析系统中微流体驱动技术的研究

    Studies on Drives for Microfluidic System

  29. 介绍该微泵设计原理,利用毛细作用力作为进口动力源,再利用数字化微流体技术驱动,将出口处的液体喷出。

    This micropump drafts the liquids into the inlet by the capillary force , then ejects them based on the digital micro fluidic technology .

  30. 一直以来,微流动本身的复杂性以及流动监测手段的局限性制约着微流体系统理论及技术的发展。

    The complexity of micro-fluid itself and the localization of the observation measures are now bottlenecking the development of the theory and technology of micro-fluidic system .