晶元電泳 的英文怎麼說
中文拼音 [jīngyuándiànyǒng]
晶元電泳
英文
microchielectrophoresis-
Advances of integrated capillary electrophoresis chips
集成毛細管電泳晶元研究進展Developments in two - dimensional electrophoresis on microfluidic chips
微流控晶元二維電泳研究進展The electrophoretic microchip fabricated by mems technology is successfully used to finish the electrophoresis process
摘要微晶元電泳是基於微機電加工技木( mems )工藝,在晶元上的微管道中完成電泳檢測過程的新型技術。A mixture of three amino acids ( arg, gly, glu ) labeled with fluorescein isothiocyanate ( fitc ) was separated in pdms microfluidic chip, the separation voltage is 200v / cm, the separation time is less than 120 seconds ; according to ccd fluorescence images, two distinct physical processes - stacking and destacking during sample injection were studied qualitatively ; rhodamine b, a kind of temperature - dependent fluorescence dye, was used as probe to develop a temperature - fluorescence intensity equation, then temperature - color map in microchannels was constructed, and temperature trait in microchannels on the pdms microfluidic chip was analysed. according to the results, we conclude that the electric field applied to the pdms microfluidic chip should not exceed 400v / cm
利用pdms微流控晶元對fitc標記的精氨酸、甘氨酸、谷氨酸混合物進行了電泳分離,分離電壓為200v cm ,分離時間不到120秒;通過拍到的熒光顯微圖像對電泳注樣過程中復雜的樣品分子積聚與解聚現象作定性的分析;以熒光染料rhodamineb為溫度熒光探針,建立了pdms微流控晶元上的溫度-熒光強度的關系公式,並利用matlab圖像處理工具箱構建出微流體溝道內的溫度色圖,對pdms微流控晶元的微流道溫度特性進行了分析,根據實驗結果,我們認為對于pdms微流控晶元來說,在進行需要外加電場作用的試驗時,外加電場不應超過400v cm 。Then the effect of turning channel has been studied. 7. this detection system has been used to dna segments separation experiments ; the results showed that it has met the need for dna separation
將該微通道電泳晶元系統應用於不同熒光標記寡核苦酸、 dna片段的分離分析,實現了寡核著酸的單堿基分辨,同時應用於結核桿菌基因組pcr產物的分析,實驗結果表明此系統可以實現dna片段的快速高效分析。The capillary electrophoresis principle and the recent developments of mce chip are reviewed. on the base of it, a novel design of mce chip system is presented. 2
闡述了毛細管電泳的原理,以及微通道電泳晶元系統的原理和研究現狀,在此基礎上,提出了自己的研究思路; 2The utilization of the procedural control makes the experimental process convenient and exact, and therefore improves the separation efficiency and detection sensitivity
實驗採用自控介面模板對進樣及分離電壓進行了系統的程序化控制,從而準確地控制整個電泳、檢測流程,提高了微晶元電泳的分離效率和檢測靈敏度。Based on the knowledge of capillary electrophoresis technology, the separation and control models of low voltage electrophoresis system using moving grade electrical field have been presented. at the same time, the developments of electrophoresis chip and control circuit have been studied, which will lay theory and technique foundation for the further study on the low voltage electrophoresis chip
以期在了解毛細管電泳的相關理論的基礎上,建立電泳晶元的低電壓運動梯度場的分離和控制模型,對電泳晶元的製作和低電壓控制電路的研發進行前期探索,為研製一種微型化、集成化的低電壓電泳晶元奠定一定的理論和技術基礎。The electric field distribution at the cross is simulated and analyzing using the soft of ansys5. 7. then the electrophoretic method has been optimized. the electrophoresis and the volume of injection have been significantly controlled using this method
設計了微通道電泳晶元的電泳操作方法,並用有限元分析軟體對在進樣和分離條件下,進樣口處的電場強度分佈進行了模擬分析,在此基礎上對電泳操作方法進行了優化,實現了進樣量和電泳過程的有效控制; 6With advantages of high efficiency, real time, low volume and automation, capillary electrophoresis separation techniques have been widely used in industrial analysis, biomedicine, molecule biology etc. with the pretence of lab on the chip and the development of micro total analysis system, electrophoresis chip, capillary electrophoresis technology on a chip, became the research hot of micro electromechanical system
毛細管電泳分離技術以其高效、快速、微量、易自動化等優點在生命科學、醫學藥物、環境保護等領域得到了極其廣泛的應用。隨著「晶元上的實驗室」思想的提出和微型全分析系統的發展,使得電泳晶元?在晶元上進行電泳分離的技術成為了當今國內外的重要研究熱點。The design and fabrication of lif detecting system has been introduced in brief. the study of this dissertation showed that mce chip has some advantages such as high speed and sensitivity
同時介紹了激光誘導熒光檢測系統的設計和構建;本論文的研究表明,微通道電泳晶元系統具有分析速度快、檢測靈敏度高等優點。Mce ( micro - channel electrophoresis ) chip and dna chip are two typical kinds of biochip combined with information technology. they have been applied for many fields, such as life science
微通道電泳晶元系統和dna檢測晶元系統將生物晶元技術和信息技術結合到一起,在生命科學、藥物化學、國防技術等領域具有廣闊的應用前景。Based on the signal characters of the low voltage electrophoresis chip developed by micro system center of chongqing university, the signal sampling and processing system of capillary electrophoresis chip has been developed, which will lay some technique foundation for the low voltage, integrate and portable type of capillary electrophoresis system
本論文針對重慶大學微系統研究中心研製的低電壓毛細管電泳晶元的特點,進行該毛細管電泳晶元的信號採集和處理系統的研究,為開發一種低電壓、集成化、便攜式的新型微小生化分離分析系統奠定一定的技術基礎。According to the model of low voltage electrophoresis chip, the injection, separation, detection and control of electrophoresis chip have been discussed in detail. the schematic of low voltage electrophoresis chip is presented and the computer program is developed to simulate the separation process to optimize the micro system
根據電泳晶元低電壓運動梯度場模型,對晶元的進樣、分離和檢測及控制進行了詳細的分析討論,在分項討論的基礎上,確定了低電壓電泳晶元的總體結構,進行了相應的計算機模擬。The chip - based method was found to be very sensitive, requiring much less sample and only quarter the time compared to the agarose gel method
發現基於晶元的檢測方法比瓊脂糖凝膠電泳方法靈敏度更高,所需的樣品量要少得多,所需的時間僅為其1 4 。Micro - channel electrophoresis chip ( mce chip ) system is a newly developed research field. the micro - channel network on the chip is manufactured by the technology of micro opto electro mechanical system ( moems ) on the substrate of glass, fused silica, pdms etc. sample separation is performed in the micro - channel and detected by opticcal or chemical methods
微通道電泳晶元( micro - channelelectrophoresischip , mcechip )系統是利用微光機電系統( moems )技術在玻璃、石英、有機聚合物等基片上刻蝕出預設計好的微通道網路,並在其中進行樣品的電泳分離,利用光學或化學等方法進行檢測。( 2 ) the characters of the signal for the low voltage electrophoresis chip, signal processing theory such as the nyquist theory, fft, fir filter and the wavelet have been discussed after the learning of low voltage electrophoresis theory and the analyzing of the low voltage electrophoresis chip
2在深入了解重慶大學微系統研究中心研製的低電壓分離電泳晶元結構、原理、信號檢測方式的基礎上,分析了毛細管電泳晶元信號特點以及相關的數字信號處理方法(奈奎斯特抽樣定理、傅立葉變換、有限長單位沖激響應( fir )濾波器、小波變換) 。Research on the fabrication of low voltage micro electrophoresis chip has been done. the technology design, layout design and fabrication experiments have been finished. the results of the experimental are discussed
針對低電壓電泳晶元分離電極陣列的研製難點進行了一定的探索,完成了電泳晶元的工藝設計、版圖設計和工藝實驗,研製出了電泳晶元原理性實驗樣品。分享友人