Simultaneous improvement of surface finish and bonding of centrifugal microfluidic devices in cyclo-olefin polymers

机译：同时改善环烯烃聚合物中离心微流体装置的表面光洁度和粘结

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Two key issues in the manufacturing of microfluidic devices are to obtain low surface roughness, i.e. in the range of nanometers (to facilitate optical detection and controlled flow through microfluidic networks), and to achieve robust bonding. Here we report that a chemical polishing step, used for smoothening the surface of cyclo-olefin polymer (COP) components manufactured by micromilling, reduces the surface roughness (to Ra ~ 150 nm) and facilitates a leak-tight COP-COP bond. We report new results on COP structuring and surface characterization by white light interferometry (WLI), infrared spectroscopy (FTIR-ATR), contact angle measurements and transmittance measurements, as well as demonstrations of a functional thermally bonded centrifugal microfluidic devices.

机译：制造微流体装置的两个关键问题是获得低的表面粗糙度，即在纳米范围内（以促进光学检测和通过微流体网络的受控流动），以及实现牢固的结合。在这里，我们报告说，化学抛光步骤用于使通过微铣削制造的环烯烃聚合物（COP）组件的表面变得平滑，从而降低了表面粗糙度（至Ra〜150 nm）并促进了密封的COP-COP键。我们报告通过白光干涉法（WLI），红外光谱（FTIR-ATR），接触角测量和透射率测量以及功能性热粘合离心微流控设备的演示在COP结构和表面表征方面取得的新成果。

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来源
《IEEE Micro Electro Mechanical Systems Conference》|2018年|1257-1260|共4页
会议地点 Belfast(GB)
作者
Elizaveta Vereshchagina; Pierre Carmona; Erik Andreassen; Jörn Batalden; Martin Plassen; Michal M. Mielnik;
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作者单位

SINTEF Digital, Microsystems and Nanotechnology (MiNaLab), Oslo, Norway;

SINTEF Digital, Microsystems and Nanotechnology (MiNaLab), Oslo, Norway;

SINTEF Materials and Chemistry, Oslo, Norway;

SINTEF Materials and Chemistry, Oslo, Norway;

SINTEF Materials and Chemistry, Oslo, Norway;

SINTEF Digital, Microsystems and Nanotechnology (MiNaLab), Oslo, Norway;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
Surface treatment; Rough surfaces; Surface roughness; Microfluidics; Bonding; Chemicals; Milling;

机译：表面处理;粗糙表面;表面粗糙度;微流控;键合;化学;铣削;;

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1. Surface modification-assisted bonding of polymer-based microfluidic devices [J] . Yolanda H. Tennico, Myra T. Koesdjojo, Saki Kondo, Sensors and Actuators . 2010,第2期

机译：聚合物基微流体装置的表面改性辅助键合
2. Mechanical and chemical analysis of plasma and ultraviolet-ozone surface treatments for thermal bonding of polymeric microfluidic devices [J] . Bhattacharyya A, Klapperich CM Lab on a chip . 2007,第7期

机译：等离子体和紫外线臭氧表面处理对聚合物微流体装置进行热粘合的机械和化学分析
3. A pressure-tolerant polymer microfluidic device fabricated by the simultaneous solidification-bonding method and flash chemistry application [J] . Wurong Ren, Heejin Kim, Hyune-Jea Lee Lab on a chip . 2014,第21期

机译：通过同时固化键合方法和快速化学应用制造的耐压聚合物微流体装置
4. Simultaneous improvement of surface finish and bonding of centrifugal microfluidic devices in cyclo-olefin polymers [C] . Elizaveta Vereshchagina, Pierre Carmona, Erik Andreassen, IEEE International Conference on Micro Electro Mechanical Systems . 2018

机译：环烯烃聚合物中离心微流体装置的表面光洁度和粘接的同时改进
5. Polymeric microfluidic devices: Development of thermoset polyester microfluidic devices and use of poly(dimethylsiloxane) devices for droplet applications. [D] . Fiorini, Gina S. 2007

机译：聚合物微流体装置：开发热固性聚酯微流体装置，并将聚二甲基硅氧烷装置用于液滴应用。
6. Design and Manufacturing of a Disposable Cyclo-Olefin Copolymer Microfluidic Device for a Biosensor [O] . Jorge Prada, Christina Cordes, Carsten Harms, 2019

机译：用于生物传感器的一次性环烯烃共聚物微流体装置的设计和制造
7. Simultaneous improvement of surface finish and bonding of centrifugal microfluidic devices in cyclo-olefin polymers [O] . Elizaveta Vereshchagina, Pierre Carmona, Erik Andreassen, 2018

机译：环烯烃聚合物中离心微流体装置的表面光洁度和粘接的同时改进

Simultaneous improvement of surface finish and bonding of centrifugal microfluidic devices in cyclo-olefin polymers

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