当时她和德拉泽在研究一种微流体技术,用于分离颗粒混合物。
She and Drazer studied a particular microfluidics technique used to separate mixtures of particles.
微流体技术通过在关键时间和关键区域对此进行控制可以解决这一问题。
Microfluidic technology can address this issue through its ability to control complex reactions at critical times and locations.
为了达到这个目的,他们求助于一种称为微流体的技术。 这种技术以前用于制造计算机芯片,目的是制造能用精确方式混合少量液体的设备。
To do so, the pair turned to a technology called microfluidics, which borrows from the techniques used to make computer chips to produce devices that mix small amounts of liquid in precise ways.
开发一种基于微流体的新的潜在更便宜的测序技术已经启动。
A startup is developing a new and potentially much cheaper sequencing technology based on microfluidics.
凯尼没有去做模具,而是开发出一种技术,直接利用Shrinky Dinks塑料卡片制作出微流体芯片。
Instead of just making molds, Khine ultimately developed a technique to make microfluidics chips directly from Shrinky Dink plastic.
直接借助ShrinkyDink塑料卡片给她的灵感,米歇尔·凯尼开发出一种制作微流体芯片的技术。
Khine developed a technique to make microfluidics chips directly from Shrinky Dink plastic.
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.
驱动控制系统是微流体数字化技术各项应用中的重要设备系统。
The driving control system is the important equipment system in the applications of Digitalization of Microfluidic technology.
本论文是上述微流体数字化技术在细胞显微注射技术上的实验研究。
In this paper, the applied research of cell microinjection is based on the micro-fluidic digital technology above.
对塑性成形领域中的流体压力成形和微成形技术工艺的原理、特点、研究现状、存在的问题和今后的发展趋势进行了阐述和总结。
Fluid pressure forming and micro molding technic are expatiated and summarized, including principle, characteristic, current situation, problem and the developing trend in plastic molding field.
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.
基于MEMS技术的微流体芯片在分析化学和生物医学领域显示了巨大的应用潜力。
Microfluidic chips based on MEMS technology exhibit great potentials in analytical chemistry and biomedical fields.
微尺度下流体的流动,在工业、生物工程及电子信息技术有着广泛的应用。
The fluid flow in the micro channel has been widely applied in many fields such as industries, bio-engineering and electronic information technology.
在线可编程任意波形发生器(程控任意波形发生器)是开展微流体数字化技术研究的基础设备。
On line programmable arbitrary waveform generator is one of the important devices for Digitalization of Microfluids.
本文研究了超细金刚石微粉的流体分级技术,设计了一套射流分级器,并对金刚石微粉在水中的分散性进行了初步研究。
The technology of grading of micro diamond powder and the dispersion of micro powder in water are studied in this paper. At the same time a system of shooting flow grader is designed.
超临界流体技术在微藻液化和丙烯环氧化反应的应用正是体现绿色化学的思想。
The SCF technology actualises the idea of green chemistry in liquefaction of microalgae and epoxidation of propylene reaction.
结合芯片技术和微流体,杨昌晖已经建立了一个便宜的微型显微镜。
By combining chip technology and microfluidics, Yang has created an inexpensive miniature microscope.
综述了国内外微流体控制系统中微泵技术的研究现状,介绍了几种常用微型泵的工作结构原理,并讨论现有技术中存在的一些问题,以及提出了尝试解决的办法。
The current status of its research, its structural designs and working principle are presented in this paper. Some problems existed are discussed and their solutions are put forward too.
利用流体在微尖上流动的性质,提出并介绍了尖笔直写快速成形技术,搭建了高精度三维成形平台。
Taking advantages of flow effect on the tip, micro-tip direct writing (MTDW) is put forward as an innovative RP method to fabricate high resolution and complex 3d structure.
利用流体在微尖上流动的性质,提出并介绍了尖笔直写快速成形技术,搭建了高精度三维成形平台。
Taking advantages of flow effect on the tip, micro-tip direct writing (MTDW) is put forward as an innovative RP method to fabricate high resolution and complex 3d structure.
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