键合是微流控芯片制作的关键技术之一。
Bonding is one of key processes for fabrication of microfluidic chip.
微阀是微流控系统中起控制限流的重要组成器件。
Valves are important components to control flows in microfluidic system.
在微流控芯片的制造过程中,键合是关键步骤之一。
During its fabrication process, bonding is the key procedure to almost all microfluidic chips.
目的建立微流控芯片的CO_2激光直接微加工方法。
Objective To establish direct-write laser method for micromachining immunoassay microfluidic chip.
一个微流控芯片能通过扫描它们的基因组快速地识别病菌。
A microfluidic chip rapidly identifies pathogens by scanning their genomes.
微流控拉曼镊子系统已在单细胞水平上用于研究细胞生物学。
The microfluidic Raman tweezers system has been applied for the study in cell biology at the single cell level.
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.
结合微流控技术,在同一基底上也可以达到多种细胞的共培养。
In combination with the microfluidic system, adhesion of multiple types of cells on a same substrate can be carried out.
本发明涉及一种应用电化学阻抗原理检测细菌的方法及微流控芯片。
The invention relates to a method for detecting bacteria by using the electrochemical impedance principle and a microfluidic chip.
分析了微流控芯片与毛细管各自特点,并对紫外固化技术进行了阐述。
The character of microfluidic chip and capillary is analyzed, and UV-Curing technology is expounded.
介绍了热压成型的原理,并对微流控芯片热压成型机进行了总体设计。
The hot-embossing theory was introduced, and the hot-embossing machine of microfluitic chip was designed.
目前,PMMA微流控芯片微通道成形过程中热压参数的调整周期很长。
At present, a long period is needed to adjust parameters of microchannel figuration under hot embossing for the fabrication of PMMA microfluidic chip.
另外微流控芯片中单细胞阵列也被实现,并且细胞可以长时间的培养观察。
Also single cell pattern arrays could be obtained in microfluidic devices and then cultured for a long term observation.
自动微装配系统是实现微型功能器件、接口器件与微流控芯片装配的关键设备。
Automatic microassembly system is the key equipment to realize the assembly of miniature function device and interface device.
流路测控部分性能好,适应性强,并且可以应用到其它微流控方面的研究中去。
The flow controlling section has a good performance and applicability, this section can also be used in other micro flow controlling application without great changes.
诊断使用的廉价微流芯片诊断设备:用塑料注塑成型该微流控芯片是廉价生产。
Diagnostic device: Made using plastic injection molding, this microfluidic chip is inexpensive to produce.
采用聚合物如塑料等制作微流控芯片是拓展芯片应用,实现芯片产业化的关键。
Using plastic in fabrication microfludic chips and realizing automating is the key to extend the applications. Temperature is one of the important parameters in hot embossing.
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 research of multidimensional separation mode applied in micro fluidic chip and its application in life science is summarized.
为了方便、快速、低成本地检测样品,提出一种内嵌光纤型微流控芯片的制备方法。
In order to detect samples with convenience, high speed and low cost, we presented a fabrication method of microchip with embedded optical fibers.
采用该方法制作的微流控芯片具有生产周期短、成本低、效率高和结构可靠的特点。
The manufactured microfluidic chip by using this process has a short cycle, low costs and a high efficiency.
注塑成型因生产效率高、适用于批量生产而成为微流控芯片商业化的首选成型方法。
Micro injection molding is most appropriate for commercial production of microfluidic chips owing to its high productivity.
论文研究了一种基于电压极性相关EWOD的单平面电极阵列结构的数字微流控器件。
Based on voltage-polarity-related EWOD phenomenon, a novel single-side coplanar electrodes array digital microfluidics is designed and fabricated.
旋光增强器有望应用于微流控系统的旋光检测以及实现磁旋光仪器的小型化和微型化。
The results indicate that the MOR enhancement device can be applied to MOR detection of microfluidic system and miniaturization of MOR instruments.
提出了一种基于芯片-毛细管复合装置的紫外检测-微流控芯片毛细管电泳分析系统。
A hybrid microfluidic system produced by coupling a microfabricated glass chip with conventional silica capillary for UV absorbance detection was developed.
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。
This study provides a rapid and lowcost method of protein detection by using micro-fluidic chip.
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。
The invention also provides a micro-fluidic protein chip which USES the quantum dot-biological composite probe as a signal probe (detection probe).
微型功能器件以及接口器件在微流控芯片上的应用,加快了微流控芯片实现产业化、商品化的进程。
Miniature function device and interface device are applied to microfluidic chip, which has accelerated the industrialization and commercialization process of microfluidic chip.
塑料微流控芯片热压键合设备已经投入自动化生产,生产的芯片质量、精度、重复性和一致性良好。
The hot embossing and bonding machines have been used practically in microfluidic chip automatic fabrication, and the chips have satisfactory quality, precision, repetition and consistency.
因此本文以微电铸制作微流控片芯片的模具为基础对改善微电铸器件的均匀性进行理论和实验研究。
Therefore, theoretical and experimental research was carried out to improve uniformity of metal micro-mold insert used in microfluidic chips.
因此本文以微电铸制作微流控片芯片的模具为基础对改善微电铸器件的均匀性进行理论和实验研究。
Therefore, theoretical and experimental research was carried out to improve uniformity of metal micro-mold insert used in microfluidic chips.
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