编织三维纸基微流体设备

IF 3.4 Q2 CHEMISTRY, ANALYTICAL Analysis & sensing Pub Date : 2023-11-29 DOI:10.1002/anse.202300065
Cuiyun Jia, Bin Li, Dr. Jie Pan, Dr. Fengjiao Zhu, Xue Bai, Dr. Xianming Liu, Prof. Bingcheng Lin, Prof. Yahong Chen, Prof. Yao Lu
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引用次数: 0

摘要

基于纸张的三维微流体设备在各种应用中具有巨大潜力,包括护理点诊断、环境监测和组织工程。然而,它们的制造仍然局限于堆叠和折纸方法,其中需要辅助设备来保持各层紧密连接。受中国竹编艺术的启发,我们开发了一种基于编织概念的新型制造技术,以 PDMS 浸渍纸基底为构建单元,制造出基于纸的三维微流控装置。由此产生的三维纸质装置具有独特的优势,包括结构紧凑、拆卸方便和实时流动可视化。为了证明该装置的适用性,我们进一步制造了一个集成了 16 个可开关阀门的编织装置来进行多重葡萄糖分析。我们设想基于编织的制造技术将为三维纸质微流控装置带来新的可能性和广泛的应用。
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Braiding Three-Dimensional Paper-Based Microfluidic Devices

Three-dimensional paper-based microfluidic devices have shown great potential in various applications, including point-of-care diagnostics, environmental monitoring, and tissue engineering. However, their fabrication is still limited to stacking and origami methods. Inspired by the art of bamboo braiding in China, we developed a novel fabrication technique based on the braiding concept to create three-dimensional paper-based microfluidic devices with PDMS-impregnated paper substrate as the building units. The resulting three-dimensional paper device brings unique advantages, including compactness, facile disassembly, and real-time flow visualization. The multiplexed glucose analysis with a braided device integrated with 16-switchable valves for flow control was further fabricated to demonstrate the device‘s applicability. We envision braiding-based fabrication technology opening new possibilities and bringing broad applications for three-dimensional paper microfluidic devices.

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