Benchtop fabrication of three-dimensional reconfigurable microfluidic devices from paper-polymer composite

Yu Long Han; Wenqi Wang; Jie Hu; Guoyou Huang; Shuqi Wang; Won Gu Lee; Tian Jian Lu; Feng Xu

doi:10.1039/c3lc50919b

Benchtop fabrication of three-dimensional reconfigurable microfluidic devices from paper-polymer composite

Yu Long Han
, Wenqi Wang
, Jie Hu
, Guoyou Huang
, Shuqi Wang
, Won Gu Lee
, Tian Jian Lu
, Feng Xu

School of Life Science and Technology (SLST)

Xi'an Jiaotong University
Brigham and Women’s Hospital
Kyung Hee University

Research output: Contribution to journal › Article › peer-review

39 Scopus citations

Abstract

We presented a benchtop technique that can fabricate reconfigurable, three-dimensional (3D) microfluidic devices made from a soft paper-polymer composite. This fabrication approach can produce microchannels at a minimal width of 100 μm and can be used to prototype 3D microfluidic devices by simple bending and stretching. The entire fabrication process can be finished in 2 hours on a laboratory bench without the need for special equipment involved in lithography. Various functional microfluidic devices (e.g., droplet generator and reconfigurable electronic circuit) were prepared using this paper-polymer hybrid microfluidic system. The developed method can be applied in a wide range of standard applications and emerging technologies such as liquid-phase electronics.

Original language	English
Pages (from-to)	4745-4749
Number of pages	5
Journal	Lab on a Chip
Volume	13
Issue number	24
DOIs	https://doi.org/10.1039/c3lc50919b
State	Published - 21 Dec 2013

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abstract = "We presented a benchtop technique that can fabricate reconfigurable, three-dimensional (3D) microfluidic devices made from a soft paper-polymer composite. This fabrication approach can produce microchannels at a minimal width of 100 μm and can be used to prototype 3D microfluidic devices by simple bending and stretching. The entire fabrication process can be finished in 2 hours on a laboratory bench without the need for special equipment involved in lithography. Various functional microfluidic devices (e.g., droplet generator and reconfigurable electronic circuit) were prepared using this paper-polymer hybrid microfluidic system. The developed method can be applied in a wide range of standard applications and emerging technologies such as liquid-phase electronics.",

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AU - Han, Yu Long

AU - Wang, Wenqi

AU - Hu, Jie

AU - Huang, Guoyou

AU - Wang, Shuqi

AU - Lee, Won Gu

AU - Lu, Tian Jian

AU - Xu, Feng

PY - 2013/12/21

Y1 - 2013/12/21

N2 - We presented a benchtop technique that can fabricate reconfigurable, three-dimensional (3D) microfluidic devices made from a soft paper-polymer composite. This fabrication approach can produce microchannels at a minimal width of 100 μm and can be used to prototype 3D microfluidic devices by simple bending and stretching. The entire fabrication process can be finished in 2 hours on a laboratory bench without the need for special equipment involved in lithography. Various functional microfluidic devices (e.g., droplet generator and reconfigurable electronic circuit) were prepared using this paper-polymer hybrid microfluidic system. The developed method can be applied in a wide range of standard applications and emerging technologies such as liquid-phase electronics.

AB - We presented a benchtop technique that can fabricate reconfigurable, three-dimensional (3D) microfluidic devices made from a soft paper-polymer composite. This fabrication approach can produce microchannels at a minimal width of 100 μm and can be used to prototype 3D microfluidic devices by simple bending and stretching. The entire fabrication process can be finished in 2 hours on a laboratory bench without the need for special equipment involved in lithography. Various functional microfluidic devices (e.g., droplet generator and reconfigurable electronic circuit) were prepared using this paper-polymer hybrid microfluidic system. The developed method can be applied in a wide range of standard applications and emerging technologies such as liquid-phase electronics.

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SP - 4745

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JO - Lab on a Chip

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IS - 24

ER -

Benchtop fabrication of three-dimensional reconfigurable microfluidic devices from paper-polymer composite

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