Fluorescence-Based Assessment of Plasma-Induced Hydrophilicity in Microfluidic Devices via Nile Red Adsorption and Depletion

David J. Guckenberger; Erwin Berthier; Edmond W. K. Young; David J. Beebe

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Fluorescence-Based Assessment of Plasma-Induced Hydrophilicity in Microfluidic Devices via Nile Red Adsorption and Depletion

机译：基于荧光的尼罗红吸附和耗竭对微流体装置中血浆诱导的亲水性的评估

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We present a simple method, called fluorescence-based assessment of plasma-induced hydrophilicity (FAPH), that enables spatial mapping of the local hydrophilicity of surfaces normally inaccessible by traditional contact angle measurement techniques. The method leverages the change in fluorescence of a dye, Nile Red, which is adsorbed on an oxygen plasma-treated surface, and its correlation with the contact angle of water. Using FAPH, we explored the effect of microchannel geometries on the penetration distance of oxygen plasma into a microchannel and found that entrance effects prevent uniform treatment. We showed that these variations have a significant impact on cell culture, and thus the design of cell-based microfluidic assays must consider this phenomenon to obtain repeatable and homogeneous results.

机译：我们提出了一种简单的方法，称为基于荧光的等离子体诱导亲水性（FAPH）评估，该方法可以对传统接触角测量技术通常无法访问的表面局部亲水性进行空间映射。该方法利用了吸附在氧等离子体处理过的表面上的染料尼罗红的荧光变化及其与水的接触角的关系。使用FAPH，我们探索了微通道几何形状对氧等离子体进入微通道的穿透距离的影响，并发现入口效应阻止了均匀处理。我们表明，这些变异对细胞培养有重要影响，因此基于细胞的微流分析的设计必须考虑这种现象，以获得可重复且均一的结果。

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《Analytical chemistry》 |2014年第15期|共6页
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David J. Guckenberger; Erwin Berthier; Edmond W. K. Young; David J. Beebe;
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1. Fluorescence-Based Assessment of Plasma-Induced Hydrophilicity in Microfluidic Devices via Nile Red Adsorption and Depletion [J] . David J. Guckenberger, Erwin Berthier, Edmond W. K. Young, Analytical chemistry . 2014,第15期

机译：基于荧光的尼罗红吸附和耗竭对微流体装置中血浆诱导的亲水性的评估
2. Plasma-induced covalent immobilization and patterning of bioactive species in microfluidic devices [J] . Shakeri Amid, Imani Sara M., Chen Eric, Lab on a chip . 2019,第18期

机译：微流体装置中的等离子体诱导的共价固定和对生物活性物种的图案化
3. Fabrication and Characterization of Stable Hydrophilic Microfluidic Devices Prepared via the in Situ Tertiary-Amine Catalyzed Michael Addition of Multifunctional Thiols to Multifunctional Acrylates [J] . Christopher O. Bounds, Jagannath Upadhyay, Nicholas Totaro ACS applied materials & interfaces . 2013,第5期

机译：稳定的亲水性微流体装置的制备和表征，该装置通过原位叔胺催化的多官能硫醇向多功能丙烯酸酯的迈克尔加成反应制得
4. INTEGRATION OF MULTI-ASPHERICAL LENSES AND OPTICAL FIBERS ONTO A PDMS MICROFLUIDIC DEVICE FOR FLUORESCENCE-BASED DETECTION [C] . K. Ono, S. Kaneda, S. Camou, International conference on miniaturized chemical and biochemical analysis systems . 2003

机译：多非球面透镜和光纤集成在PDMS微流体装置上，用于荧光基础检测
5. Fluorescence-based assessment of total protease activity/trypsin as a function of variable soybean content in fines fed to the gray tilapia (Oreochromis niloticus) and the red tilapia (Oreochromis hornorum) [D] . Guerrero Bravo, Jose Eduar 2008

机译：基于荧光的总蛋白酶活性/胰蛋白酶的评估，作为饲喂给灰色罗非鱼（尼罗罗非鱼）和红色罗非鱼（罗非鱼）的细粉中可变大豆含量的函数
6. Fluorescence-Based Assessment of Plasma-Induced Hydrophilicityin Microfluidic Devices via Nile Red Adsorption and Depletion [O] . DavidJ. Guckenberger, Erwin Berthier, Edmond W. K. Young, -1

机译：基于荧光的血浆诱导亲水性评估尼罗红的吸附和耗竭作用在微流控设备中的应用
7. Surfactant-free, UV-curable core–shell microcapsules in a hydrophilic PDMS microfluidic device [O] . Adrian J. T. Teo, Fariba Malekpour-galogahi, Kamalalayam Rajan Sreejith, 2020

机译：亲水性PDMS微流体装置中的无表面活性剂，UV可固化的核心壳微胶囊

Fluorescence-Based Assessment of Plasma-Induced Hydrophilicity in Microfluidic Devices via Nile Red Adsorption and Depletion

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