Integration of organic opto-electrowetting and poly(ethylene) glycol diacrylate (PEGDA) microfluidics for droplet manipulation

机译：集成有机光电润湿和聚乙二醇二丙烯酸乙二醇酯（PEGDA）微流控技术，实现液滴控制

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This paper reports a fabrication technology which integrates organic opto-electrowetting (OEW) with PEGDA-based microfluidics between stacked ITO glass chips for droplet generation and manipulation. Organic OEW can be realized by using titanium oxide phthalocyanine (TiOPc) as a photoconductive layer. Optical images can be projected on an organic OEW area to induce the local virtual electrodes which reduce the surface energy. Low-molecular-weight (LMW) PEGDA material is used to form stable and biocompatible microchannels between the stacked ITO glass chips by UV photopolymerization process. PEGDA-based microfluidics provides a simpler way to enhance droplet-in-oil applications in organic OEW. This technology requires only spin-coating and photolithography and is more cost-effective than previous methods.

机译：本文报道了一种制造技术，该技术在堆叠的ITO玻璃芯片之间集成了有机光电润湿（OEW）和基于PEGDA的微流控技术，用于液滴的产生和处理。通过使用氧化钛酞菁（TiOPc）作为光电导层可以实现有机OEW。可以将光学图像投射到有机OEW区域上，以诱导局部虚拟电极，从而降低表面能。低分子量（LMW）PEGDA材料用于通过UV光聚合工艺在堆叠的ITO玻璃芯片之间形成稳定且生物相容的微通道。基于PEGDA的微流控技术为增强有机OEW中的油滴应用提供了更简单的方法。该技术仅需要旋涂和光刻，并且比以前的方法更具成本效益。

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来源
《The 16th International Conference on olid-State Sensors, Actuators and Microsystems》|2011年|p.2307-2310|共4页
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Yu Tung-Ming; Yang Shih-Mo; Fu Chien-Yu; Liu Ming-Huei; Hsu Long; Liu Cheng-Hsien;
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中图分类 TB907;
关键词
Opto-electrowetting (OEW); PEGDA; TiOPc; droplet based system; electrowetting on dielectric (EWOD); photo-conductor;

机译：光电润湿（OEW）; PEGDA; TiOPc;基于液滴的系统;介电质电润湿（EWOD）;光电导体;

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1. Integration of organic opto-electrowetting and poly(ethylene) glycol diacrylate (PEGDA) microfluidics for droplets manipulation [J] . Tung-Ming Yu, Shih-Mo Yang, Chien-Yu Fu, Sensors and Actuators . 2013,第apra期

机译：集成有机光电润湿和聚乙二醇二丙烯酸乙二醇酯（PEGDA）微流控技术，实现液滴控制
2. Injectable microfluidic hydrogel microspheres based on chitosan and poly(ethylene glycol) diacrylate (PEGDA) as chondrocyte carriers [J] . Lin Lin, Yanfang Wang, Ling Wang, RSC Advances . 2020,第65期

机译：基于壳聚糖和聚（乙二醇）二丙烯酸酯（PEGDA）作为软骨细胞载体的可注射的微流体水凝胶微球
3. The effect of a molecular weight and an amount of PEGDA (poly(ethylene glycol)diacrylate) on a preparation of sodium methallyl sulfonate-co-PEGDA microspheres and sorption behavior of Co(II) [J] . Noh-Seok Kwak, Jeung Ryoul Yang, Chi Won Hwang Chemical engineering journal . 2013,第Null期

机译：分子量和PEGDA（聚（乙二醇）二丙烯酸酯）的量对甲代烯丙基磺酸钠-co-PEGDA微球制备及Co（II）吸附行为的影响
4. Integration of organic opto-electrowetting and poly(ethylene) glycol diacrylate (PEGDA) microfluidics for droplet manipulation [C] . Yu Tung-Ming, Yang Shih-Mo, Fu Chien-Yu, International Conference on olid-State Sensors, Actuators and Microsystems . 2011

机译：有机光电电荷和聚（乙烯）二醇二丙烯酸酯（PEGDA）微流体用于液滴操作的整合
5. Enhancing Membrane Hydrophilicity via Surface Initiated Radical Polymerization of Poly(ethylene glycol) Diacrylate [D] . ?Doshi, Sarthak Rajiv 2019

机译：通过聚表面引发自由基聚合（乙二醇）二丙烯酸酯提高亲水性膜
6. Generation of Size-controlled Poly (ethylene Glycol) Diacrylate Droplets via Semi-3-Dimensional Flow Focusing Microfluidic Devices [O] . Yan Wu, Xiang Qian, Shengli Mi, 2018

机译：通过半三维流量聚焦微流体装置产生尺寸控制的聚（乙二醇）二丙烯酸液滴的产生
7. Characterization of pore structure in biologically functional poly(2-hydroxyethyl methacrylate)-poly(ethylene glycol) diacrylate (PHEMA-PEGDA). [O] . Amelia Zellander, Chenlin Zhao, Mrignayani Kotecha, 2014

机译：生物功能性聚（甲基丙烯酸2-羟乙酯） - 聚（乙二醇）二丙烯酸酯（pHEma-pEGDa）中孔结构的表征。

Integration of organic opto-electrowetting and poly(ethylene) glycol diacrylate (PEGDA) microfluidics for droplet manipulation

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