Sucrose-based fabrication of 3D-networked, cylindrical microfluidic channels for rapid prototyping of lab-on-a-chip and vaso-mimetic devices

Jiwon Lee; Jungwook Paek; Jaeyoun Kim

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Sucrose-based fabrication of 3D-networked, cylindrical microfluidic channels for rapid prototyping of lab-on-a-chip and vaso-mimetic devices

机译：基于蔗糖的3D网络圆柱形微流体通道制造，用于芯片实验室和血管模拟设备的快速原型制作

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We present a new fabrication scheme for 3D-networked, cylindrical microfluidic (MF) channels based on shaping, bonding, and assembly of sucrose fibers. It is a simple, cleanroom-free, and environment-friendly method, ideal for rapid prototyping of lab-on-a-chip devices. Despite its simplicity, it can realize complex 3D MF channel architectures such as cylindrical tapers, internal loops, end-to-side junctions, tapered junctions, and stenosis. The last two will be of special use for realizing vaso-mimetic MF structures. It also enables molding with polymers incompatible with high-temperature processing.

机译：我们提出了一种基于蔗糖纤维的成型，粘合和组装的3D网络，圆柱形微流（MF）通道的新制造方案。这是一种简单，无尘的环境友好型方法，非常适合快速构建芯片实验室设备的原型。尽管它很简单，但是它可以实现复杂的3D MF通道体系结构，例如圆柱形锥度，内部回路，端对端接合，锥形接合和狭窄。最后两个将特别用于实现血管模拟MF结构。它还可以使用与高温加工不兼容的聚合物进行成型。

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《Lab on a chip》 |2012年第15期|共5页
作者
Jiwon Lee; Jungwook Paek; Jaeyoun Kim;
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正文语种 eng
中图分类化学实验（实验化学）;
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1. Sucrose-based fabrication of 3D-networked, cylindrical microfluidic channels for rapid prototyping of lab-on-a-chip and vaso-mimetic devices [J] . Jiwon Lee, Jungwook Paek, Jaeyoun Kim Lab on a chip . 2012,第15期

机译：基于蔗糖的3D网络圆柱形微流体通道制造，用于芯片实验室和血管模拟设备的快速原型制作
2. Inexpensive, rapid prototyping of microfluidic devices using overhead transparencies and a laser print, cut and laminate fabrication method [J] . Thompson Brandon L., Ouyang Yiwen, Duarte Gabriela R. M., Nature protocols erecipes for researchers . 2015,第6期

机译：使用高架透明胶片和激光印刷，切割和层压制造方法，廉价，快速地制作微流体设备的原型
3. Rapid fabrication of nickel molds for prototyping embossed plastic microfluidic devices [J] . Richard Novak, Navpreet Ranu, Richard A. Mathies Lab on a chip . 2013,第8期

机译：快速制造用于压花塑料微流体装置原型的镍模具
4. Microplasma fabrication: from semiconductor technology for 2D-chips and microfluidic channels to rapid prototyping and 3D-printing of microplasma devices [C] . Ryan Shatford, Vassili Karanassios Advanced environmental, chemical, and biological sensing technologies XI . 2014

机译：微等离子体制造：从用于2D芯片和微流体通道的半导体技术到微等离子体设备的快速原型制作和3D打印
5. Selective filling for patterning in microfluidic channels and integration of chromatography in "lab-on-a-chip" devices using sol-gel technology. [D] . Jindal, Rohit. 2005

机译：在微流控通道中进行图案填充的选择性填充，以及使用溶胶-凝胶技术将色谱法整合到“芯片实验室”设备中。
6. Rapid fabrication of nickel molds for prototyping embossed plastic microfluidic devices [O] . Richard Novak, Navpreet Ranu, Richard A. Mathies -1

机译：快速制造用于压花塑料微流控设备原型的镍模具
7. Geometrical Alignment of Multiple Fabrication Steps for Rapid Prototyping of Microfluidic Paper-Based Analytical Devices [O] . -1

机译：多种制造步骤的几何对准，用于微流体纸分析装置的快速原型设计

Sucrose-based fabrication of 3D-networked, cylindrical microfluidic channels for rapid prototyping of lab-on-a-chip and vaso-mimetic devices

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