Research to Improve the Efficiency of Double Stereo PCR Microfluidic Chip by Passivating the Inner Surface of Steel Capillary with NOA61

Wu Jian; Guo Wei; Wang Chunyan; Yu Kuanxin; Ma Ying; Chen Tao; Li Yinghui

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Research to Improve the Efficiency of Double Stereo PCR Microfluidic Chip by Passivating the Inner Surface of Steel Capillary with NOA61

机译：用NOA61钝化钢毛细管内表面来提高双立体PCR微流控芯片效率的研究

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In this paper, we report the improvement of PCR microfluidic chip efficiency achieved by coating the inner surface of steel capillary microchannel with a 22-A mu m film of the ultraviolet-solidified NOA61 using a device invented by us. Our results indicate that with this treatment, the roughness of the inside wall of steel capillary was improved from Ra = 0.921 to Ra = 0.254. The contact angle was decreased from about 95A degrees to 56A degrees, and the surface hydrophobicity was also increased. The flow pressure for performing the real-time PCR in the microfluidic chip with modified surface was reduced by twofold (2.11/1) and that resulted in a substantially increased efficiency of PCR. A modification of the microchannel interior surface improved the quality of the on-chip integrated PCR procedure.

机译：在本文中，我们报告了使用我们发明的装置，通过在22 µm紫外线固化的NOA61紫外固化膜上覆盖毛细管微通道的内表面，可以实现PCR微流控芯片效率的提高。我们的结果表明，通过这种处理，钢毛细管内壁的粗糙度从Ra = 0.921改善为Ra = 0.254。接触角从大约95A度减小到56A度，并且表面疏水性也增加了。在具有修饰表面的微流控芯片中执行实时PCR的流动压力降低了两倍（2.11 / 1），从而大大提高了PCR效率。微通道内表面的改进提高了芯片上集成PCR程序的质量。

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来源
《Cell biochemistry and biophysics》 |2015年第2期|共6页
作者
Wu Jian; Guo Wei; Wang Chunyan; Yu Kuanxin; Ma Ying; Chen Tao; Li Yinghui;
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正文语种 eng
中图分类生物化学;
关键词
Microfluidic chip; Surface modification; NOA 61;

机译：微流控芯片;表面改性;NOA 61;

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专利

1. Research to Improve the Efficiency of Double Stereo PCR Microfluidic Chip by Passivating the Inner Surface of Steel Capillary with NOA61 [J] . Wu Jian, Guo Wei, Wang Chunyan, Cell biochemistry and biophysics . 2015,第2期

机译：用NOA61钝化钢毛细管内表面来提高双立体PCR微流控芯片效率的研究
2. EXPERIMENTAL STUDIES OF SURFACE-DRIVEN CAPILLARY FLOW IN PMMA MICROFLUIDIC DEVICES PREPARED BY DIRECT BONDING TECHNIQUE AND PASSIVE SEPARATION OF MICROPARTICLES IN MICROFLUIDIC LABORATORY-ON-A-CHIP SYSTEMS [J] . Mukhopadhyay Subhadeep, Banerjee J. P., Mathur Ashish, Surface review and letters . 2015,第4期

机译：直接键合技术和被动分离微流控芯片实验室系统制备的PMMA微流控装置中表面驱动的毛细流动的实验研究
3. Morphological evolution of voids by surface drift diffusion driven by capillary, electromigration, and thermal-stress gradients induced by steady-state heat flow in passivated metallic thin films and flip chip solder joints. Ⅰ. Theory [J] . Tarik Omer Ogurtani, Oncu Akyildiz Journal of Applied Physics . 2008,第2期

机译：在钝化金属薄膜和倒装芯片焊点中，由毛细管，电迁移和稳态热流引起的热应力梯度驱动的表面漂移扩散会导致空隙的形态演化。 Ⅰ。理论
4. The Capillary number effect on the capture efficiency of cancer cells on composite microfluidic filtration chips [C] . Cong Zhao, Rui Xu, Kui Song, IEEE International Conference on Micro Electro Mechanical Systems . 2015

机译：毛细管数对复合微流滤芯片上癌细胞捕获效率的影响
5. Gene synthesis from oligonucleotide mixtures by solid phase PCR and assembly PCR in a microfluidic chip system. [D] . Lee, Woong Hee. 2010

机译：在微流控芯片系统中通过固相PCR和组装PCR从寡核苷酸混合物中合成基因。
6. Capillary-driven surface-enhanced Raman scattering (SERS)-based microfluidic chip for abrin detection [O] . Hao Yang, Min Deng, Shan Ga, 2014

机译：基于毛细管驱动的表面增强拉曼散射（SERS）的微流控芯片用于检测蛋白
7. Capillary-driven surface-enhanced Raman scattering (SERS)-based microfluidic chip for abrin detection [O] . Hao Yang, Min Deng, Shan Ga, 2014

机译：基于毛细管驱动的表面增强拉曼散射（SERS）的微流控芯片，用于检测蛋白

Research to Improve the Efficiency of Double Stereo PCR Microfluidic Chip by Passivating the Inner Surface of Steel Capillary with NOA61

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