The research of multidimensional separation mode applied in micro fluidic chip and its application in life science is summarized.
摘要综述了多维分离模式在微流控芯片中的应用以及多维芯片在生命科学中的应用。
The extract was analyzed by gas chromatograph equipped with a flame photometric detector and a micro fluidic device with back-flush function.
取部分提取液浓缩、定容,用配备火焰光度检测器及微流控装置的气相色谱仪进行有机磷农药检测。
The paper put forward a micro fluidic chip based on arrayed -electrode integrated with detection electrode , and its control and detection system .
提出一种集成了检测电极的基于线性阵列电极的微流体芯片,及以此芯片为基础所构建的控制检测系统。
In this paper, the applied research of cell microinjection is based on the micro-fluidic digital technology above.
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。
A process of soft lithography was introduced for fabrication of PDMS (polydimethylsiloxane) micro-mixer on micro-fluidic chip.
介绍了一种用软光刻技术制作微流芯片上PDMS微混合器的工艺。
The micro-fluidic chip analyzer also has matrix keyboard, small LCD displayer, serial communication unit, and capillary electrophoresis(CE) separation unit.
本仪器还包括矩阵式键盘、小型液晶显示屏、串行通信模块和毛细管电泳分离模块。
As detective area of suspension array, how to design a micro-fluidic system and control the flow velocity are discussed in detail.
微流场是液相芯片的检测场所,研究了微流场系统的设计和流速控制方法。
This study provides a rapid and lowcost method of protein detection by using micro-fluidic chip.
实验提供了一种微流控芯片分离检测蛋白的手段,它是一种快速低成本的检测蛋白的方法。
Products that Clippard first introduced to the industry include: fluidic amplifiers, unique plug-in air logic modules, and micro-based computer control air logic control systems.
产品Clippard首次推出的行业包括:放大器,流体独特的插件在空气中的逻辑模块,微型计算机控制空气逻辑控制系统。
The invention also provides a micro-fluidic protein chip which USES the quantum dot-biological composite probe as a signal probe (detection probe).
本发明还提供采用上述量子点-生物复合探针作为信号探针(检测探针)的微流控蛋白质芯片。
Modulat design was adopted to allow the detection system to be applied for micro-fluidic and conventional analyses by changing suitable detection cells.
整机采用模块化结构利用分立的检测池模块可满足微流量分析及常规分析的需要。
Experiment results of red dye solutions and NaNO2 solutions show that paper micro-fluidic switch can be implemented by the helping of SAW.
红色染料溶液和亚硝酸钠溶液在纸微流通道输运实验表明,声表面波可实现纸微流通道内微流体的开关功能。
Experiment results of red dye solutions and NaNO2 solutions show that paper micro-fluidic switch can be implemented by the helping of SAW.
红色染料溶液和亚硝酸钠溶液在纸微流通道输运实验表明,声表面波可实现纸微流通道内微流体的开关功能。
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