首页> 外文期刊>Langmuir: The ACS Journal of Surfaces and Colloids >On-chip micropatterning of plastic (cylic olefin copolymer, COC) microfluidic channels for the fabrication of biomolecule microarrays using photografting methods
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On-chip micropatterning of plastic (cylic olefin copolymer, COC) microfluidic channels for the fabrication of biomolecule microarrays using photografting methods

机译:塑料(环烯烃共聚物,COC)微流体通道的芯片微图案化,用于通过光接枝方法制造生物分子微阵列

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摘要

This paper reports on the surface modification of plastic microfluidic channels to prepare different biomolecule micropatterns using ultraviolet (UV) photografting methods. The linkage chemistry is based upon UV photopolymerization of acryl monomers to generate thin films (0.01-6 mu m) chemically linked to the organic backbone of the plastic surface. The commodity thermoplastic, cyclic olefin copolymer (COC) was selected to build microfluidic chips because of its significant UV transparency and easiness for microfabrication by molding techniques. Once the polyacrylic films were grafted on the COC surface using photomasks, micropatterns of proteins, DNA, and biotinlated conjugates were readily obtained by surface chemical reactions in one or two subsequent steps. The thickness of the photografted films can be tuned from several nanometers up to several micrometers, depending on the reaction conditions. The micropatterned films can be prepared inside the microfluidic channel (on-chip) or on open COC surfaces (off-chip) with densities of functional groups about 10(-7) mol/cm(2). Characterization of these films was performed by attenuated-total-reflectance IR spectroscopy, fluorescence microscopy, profilometry, atomic force microscopy, and electrokinetic methods.
机译:本文报道了塑料微流体通道的表面改性,以利用紫外线(UV)接枝方法制备不同的生物分子微图案。链接化学基于丙烯酸单体的UV光聚合,以产生化学连接到塑料表面有机骨架的薄膜(0.01-6微米)。选择商品化的热塑性环状烯烃共聚物(COC)来构建微流控芯片,因为它具有明显的紫外线透明性,并且易于通过成型技术进行微加工。一旦使用光掩模将聚丙烯酸酯膜移植到COC表面上,就可以在一个或两个后续步骤中通过表面化学反应轻松获得蛋白质,DNA和生物素化缀合物的微图案。取决于反应条件,可以将光接枝膜的厚度从几纳米调整到几微米。可以在微流体通道内部(芯片上)或在开放的COC表面(芯片外)上制备微图案化的膜,其官能团的密度约为10(-7)mol / cm(2)。这些膜的表征通过衰减全反射红外光谱,荧光显微镜,轮廓测定,原子力显微镜和电动方法进行。

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