microfluidics 中文意思是什麼
microfluidics
解釋
微流體技術-
Recently, in the field of microfluidics system the drive mode of flow is a key problem, dc electroosmoticflow micropump bases on the principle of electroosmosis, which control the flow in the microchannel with electric field. recent years, it is more and more attracting people to realize it
當前在微流控系統中液體的驅動方式是一個關鍵問題,直流電滲流微泵是基於電滲原理,利用電場控制通道中的液體流動,實現無運動部件的液體流動系統,近年越來越受到人們的重視。 -
In microfluidics systems, many parameters influence on the flow moving and control, for examples, microchannel surface characters, section shape. in this paper the main work is the research on the mechanism forming electroosmoticflow, theory analysis and simulation on the influence of the geometry parameters on the microflow. this paper reviews the development history of dc electroosmotic micropump and introduces the principle of electric double layer and dc electroosmotic micropump
在微流控系統中微通道的表面特性、截面形狀等都會對電滲流流體的流動和控制產生影響,因此本文的主要工作內容就是對電滲流的產生機理進行研究和對微通道的幾何參數對其中的流體的流動狀況的影響進行分析。 -
Elegant microfluidics, also developed at lincoln, direct the sample and nutrient media through the channel, where a charge - coupled device ( ccd ) like those found in camcorders detects even a single b cell firing
先進的微流體晶元? ?同樣由林肯實驗室研製? ?指引樣本和營養介質通過通道,通道中即使只有一個b細胞發光,與便攜攝像機里的裝置類似的電荷耦合器也會探測到。 -
The micro total analysis systems are based on the microfluidics intergrated chemical processing and analysis. though still in many ways in its infancy, interest in this field has grown explosively over the last decades
目前,關于微全分析系統在醫學疾病診斷方面的研究剛剛起步,本論文旨在對微全分析系統在醫學診斷方面的應用進行探究。 -
The ability of microfluidics to mimic the flow and geometry of human blood vessels also proved critical
微流體技術關于血流及血管構型模擬的功能也是至關重要的。 -
One of the great virtues of microfluidics technology is its ability to control complex reactions at critical times and locations
微流體技術的一個顯著優點就是它能在關鍵時間和關鍵區域對復雜的凝血反應進行掌控。 -
In this review, we focus on lab - on - a - chip with fluid flow along micro - scale channels ( microfluidics ) and its application on life science and biotechnology
現就基於微流通道的晶元實驗室(微流晶元)及其在生物化學檢測上的運用作一介紹。 -
Several companies have now manufactured microfluidics devices ( “ labs - on - a - chip ” ) that allow the high - throughput chemistries needed in screening, synthesis and probing of biological molecules
有幾家公司生產能夠進行生物分子篩選、合成和探測所需的大規模化學反應的顯微射流技術設備。 -
Microfluidics is the minitiarization of fluid - based biochemistry to very small volumes such that a large series of chemical reactions can be performed in parallel in a microarray format ( see microarray )
顯微流是將液相生化反應縮小至非常小的量,這樣大系列的化學反應可以在相同的微點陣狀態下進行。 -
Recently, advances in miniaturization and microfluidics have allowed screening of up to 100, 000 compounds against a target on a single chip daily, allowing previously unimaginable amounts of compounds to be screened
最近,小型化和微流體方面的進展允許在一個晶元上每天對一個靶子篩選10萬個化合物,使得從前不可想象的大量化合物篩選成為可能。 -
The scientists used microfluidics, a technique that allowed them to probe blood clotting on surfaces that mimic vascular damage on the micron scale, a unit of measurement much narrower than the diameter of a human hair
他們使用了一種微流體技術,這項技術使科學家們能夠檢測在微米(比人頭發直徑小的多)水平上模擬的血管損傷后血液的凝固過程。 -
The essential issue with developing microfluidics - based devices is the ability to maintain adequate access to the solutions needed in each element of the array, delivered both spatially ( to each addressable location in the array ) and temporally ( at the appropriate time in the reaction )
發展顯微流系統的關鍵是能夠維持點陣中每個元素所需的溶液的足夠的量,並按時空要求準確地送到每個點。 -
Focusing on microfluidic chips for biochemical analysis, the research consists of establishing theoretical basis for system design and fabrication, solving key processing problems, developing new techniques, equipment and instrument for bio - mems, and research on microfluidics and micro stereo vision
以應用於生化分析的微流控晶元為研究對象,建立系統設計與加工理論,解決關鍵工藝技術,開發新工藝、新設備和微系統測試技術,開展微流體輸運和顯微立體視覺研究。 -
Examples of microfluidics - based applications include screening of biological targets, synthesis of combinatorial libraries, synthesis of dna oligomers, and analysis of polymorphic proteins, all of which can be performed in large high - throughput parallel arrays because of microfluidics
顯微射流技術應用的例子包括生物靶子的篩選、組合文庫的形成、 dna寡聚體的合成,蛋白質多態性研究所有這些都因為顯微射流技術而可以大規模進行。
分享友人