微流控芯片

蛋白质DNA混合微点阵和微流控芯片的整合

Microarrays of DNA and Protein Integrated on Microfluidic Chip

高聚物基连续流式PCR微流控芯片系统与应用技术研究

Polymer Based Continuous-Flow PCR Microfluidic Chip System and Its Application

目的建立微流控芯片的CO2激光直接微加工方法。

Objective To establish direct-write laser method for micromachining immunoassay microfluidic chip .

基于FPGA的微流控芯片电泳控制系统设计

An Electrophoresis Control System for Microfluidic Chip Based on FPGA

用于激光制备生物微流控芯片工艺研究的生物PCR荧光分析方法

Biological PCR Fluorescence Analysis Methods for Technics in Manufacture Micro-continuous-flow Biochip by Laser Technology

为了满足微流控芯片用于临床检测（PointofCare）和资源匮乏等场合的需要，设计和制作了可拆卸式的转矩阀。

To satisfy the needs of microfluidic chip in the situations of Point-of-care and resource-poor , a detachable torque-actuated valve was developed .

激光制备PMMA基PCR微流控芯片的热压键合研究

Thermal bonding technology for PMMA based micro flow through PCR chip

CO2激光直写加工PMMA微流控芯片

Fabrication of PMMA Microfluidic Chip by CO_2 Laser Direct-writing

以罗丹明B和荧光素钠为荧光探针，考察了微流控芯片的电荷选择能力。

Rhodamine B and fluorescein sodium were used as fluorescence probes to study the charge separation capacity of this micro / nanofluidic device .

基于毛细管电泳的微流控芯片技术可以更快地完成PCR产物分离。

Capillary electrophoresis by microfluidics is an alternative method for more rapidly separating such as PCR products .

MEMS技术的发展，使得PCR微流控芯片的制备成为了现实。

With the development of MEMS technology , micro flow through PCR chip is realized by it .

微流控芯片是目前MEMS研究最为活跃的领域之一。

At present , microfluidic chip is one of the hottest areas in MEMS field .

提出使用CO2激光器进行PMMA微流控芯片加工的方法。

We used CO2 laser system to fabricate polymethylmethacrylate ( PMMA ) based microfluidic chip .

然后单独的长的DNA分子被送入微流控芯片，静水压通过一个窄的通道以恒定的速度牵引它们。

Single long molecules of DNA are then fed into a microfluidic chip , where hydrostatic pressure pulls them at a constant speed through a narrow channel .

基于ITO玻璃的微流控芯片系统温度控制装置

Thermal Control Device for Microfluidic Chips Fabricated from Indium Tin Oxide ( ITO ) Glass

研究了一种集成Pt电极的安培型电化学微流控芯片的制备方法。

Using sputter and lift - off method to fabricate electrochemical microfluidic chip which integrated Pt micro electrode was presented .

塑料（PMMA）微流控芯片微通道热压成形工艺参数的确定

Process Parameter Determination in Fabrication of Microchannel of Plastic ( PMMA ) Microfluidic Chips Using Hot-embossing Method

PDMS复制的微流控芯片微结构尺寸的简易测量方法研究

Measurement of Structural Dimensions on Microfluidic Chips Using a PDMS Replication Technique

PDMS微流控芯片中焦耳热效应的数值研究

Numerical study on Joule heating effect in PDMS microfluidic chip

PMMA基连续流式PCR微流控芯片的C02激光直写加工与应用

Fabrication and Application of PMMA Continuous-Flow PCR Microfluidic Chip with CO_2 Laser Direct-Writing Ablation Micromachining Technique

通过对MEMS工艺的研究，最终确定了一套制作PDMS-玻璃微流控芯片的可靠技术。

The paper confirms a set reliable fabrication process of PDMS-Glass microfluidic chip , based on the research of MEMS technology .

PDMS微流控芯片加工技术及微萃取系统的实验研究

Experimental Study on Fabrication of PDMS and Microextraction System

激光刻蚀成模快速制作PDMS微流控芯片

Fast Fabrication of PDMS Microfluidic Chip by Replica Molding of LASER Ablated Model

用于蛋白质酶解的一体化PDMS微流控芯片

An Integrated PDMS Microfluidic Chip for Protein Digestion

该套系统的使用，对于今后PCR微流控芯片的商品化应用与集成化研究有一定的指导和借鉴意义。

The use of this system could offer a little of instructions and references for further commercial use and the functional integration research of the PCR microfluidic chip .

PDMS微流控芯片-电化学检测集成系统

PDMS Microchip Integrated with Electrochemical Detection System

连接反应介导的等位基因特异性扩增-微流控芯片电泳法同时检测多个SNP位点

Simultaneous Detection of Multiplex SNPs by Adapter-ligation Mediated Allele-specific Amplification ( ALM-ASA ) on CE-chip Electrophoresis Device

介绍了一种适用于微流控芯片PCR扩增的新型循环加热系统，包括系统可控电源电路设计、控制方案确定及控制算法实验。

This paper presents a new designed thermal cycling heater system for PCR in microfluidic chip . It includes the power design , the control project and algorithm experiment .

研究了利用UV-LIGA技术制造PMMA微流控芯片金属热压模具。

Using UV-LIGA technique to fabricate hot embossing mould of PMMA microfluidic chip was presented .

以FDA作为细胞中酯酶的底物，我们利用这种简易微流控芯片对由酯酶引起反应产生荧光信号的细胞进行了高通量分析。

FDA was used as the enzyme substrate . A high-throughput single-cell fluorescence was detected by epi-fluorescence microscopy on the chip .