Rapid assembly of multilayer microfluidic structures

机译：多层微流体结构的快速组装

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摘要

We demonstrate rapid 3D-printed molding and assembly of two-sided PDMS devices. Advancing the 3D printed transfer molding technique from single-sided microfluidics to multi-layer microfluidic manufacturing, this work utilizes the ease of 3D printing to create complementary molds with built-in alignment structures to PDMS layers and then assemble them at the end. Using this single-step double-sided molding method, we demonstrate the molding of complex geometries in PDMS - including vias, built-in alignment marks, and membrane valves - that are difficult or impossible to achieve using standard soft lithography. The membrane valves show distinctive transistor characteristic curves and a closing pressure of 200 kPa. A new stamp-bonding method is used to selectively apply liquid PDMS adhesive, demonstrating a reliable method of assembling multi-layered PDMS microfluidic devices.

机译：我们演示了双面PDMS设备的快速3D打印成型和组装。将3D打印传递模塑技术从单面微流控技术发展到多层微流控制造技术，这项工作利用3D打印的简便性来创建具有内置对齐结构的互补模具到PDMS层，然后在最后组装它们。使用这种单步双面成型方法，我们演示了PDMS中复杂几何形状的成型-包括通孔，内置对准标记和薄膜阀-使用标准软光刻很难或不可能实现。隔膜阀显示出独特的晶体管特性曲线，并且关闭压力为200 kPa。一种新的压模键合方法用于选择性地施加液态PDMS粘合剂，证明了组装多层PDMS微流体装置的可靠方法。

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来源
《IEEE Micro Electro Mechanical Systems Conference》|2018年|1241-1244|共4页
会议地点 Belfast(GB)
作者
C. Glick; A. Schwartz; M. Srimongkol; J. Lin; W. Zhuang; R. Warren; D. Tekell; P. Satamalee; L. Lin;
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University of California Berkeley USA;

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关键词
Microfluidics; Three-dimensional displays; Valves; Nonhomogeneous media; Soft lithography; Bonding;

机译：微流体；三维显示器；阀门；非均匀介质；软光刻粘接;

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专利

1. Rapid assembly of multilayer microfluidic structures via 3D-printed transfer molding and bonding [J] . Casey C. Glick, Mitchell T. Srimongkol, Aaron J. Schwartz, Microsystems & Nanoengineering . 2016,第2期

机译：通过3D打印的传递模塑和粘合快速组装多层微流体结构
2. Multilayer line micropatterning using convective self-assembly in microfluidic channels [J] . Jang H., Kim S., Char K. Langmuir: The ACS Journal of Surfaces and Colloids . 2003,第8期

机译：在微流体通道中使用对流自组装的多层线微图案
3. Assessing the rapid flow in multilayer paper-based microfluidic devices [J] . Schaumburg Federico, Berli Claudio L. A. Microfluidics and nanofluidics . 2019,第8期

机译：评估多层纸基微流控设备中的快速流动
4. Rapid assembly of multilayer microfluidic structures [C] . C. Glick, A. Schwartz, M. Srimongkol, IEEE International Conference on Micro Electro Mechanical Systems . 2018

机译：多层微流体结构的快速组装
5. Multilayer films: Assembly and disassembly at different pH conditions. [D] . Batchellor, Adam. 2011

机译：多层膜：在不同的pH条件下组装和拆卸。
6. Rapid assembly of multilayer microfluidic structures via 3D-printed transfer molding and bonding [O] . Casey C. Glick, Mitchell T. Srimongkol, Aaron J. Schwartz, 2016

机译：通过3D打印的传递模塑和粘合快速组装多层微流体结构
7. Selective capture and rapid identification of E. coli O157:H7 by carbon nanotube multilayer biosensors and microfluidic chip-based LAMP [O] . Tianchan Li, Fanjiao Zhu, Wei Guo, 2017

机译：碳纳米管多层生物传感器和基于微流体芯片灯的选择性捕获和快速鉴定大肠杆菌O157：H7

Rapid assembly of multilayer microfluidic structures

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