Femtosecond laser hybrid fabrication of a 3D microfluidic chip for PCR application

Chao Shan; Chengjun Zhang; Jie Liang; Qing Yang; Hao Bian; Jiale Yong; Xun Hou; Feng Chen

doi:10.1364/OE.398848

Femtosecond laser hybrid fabrication of a 3D microfluidic chip for PCR application

Chao Shan
, Chengjun Zhang
, Jie Liang
, Qing Yang
, Hao Bian
, Jiale Yong
, Xun Hou
, Feng Chen

Faculty of Electronic and Information Engineering

Xi'an Jiaotong University

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

13 Scopus citations

Abstract

Microfluidic chips have gradually become a focus of scientific research. However, the fabrication of key functional components in microfluidic chips is always limited by the existing processing methods. The microfluidic chip is difficult to be three-dimensional (3D) and integrated. In response to the key problems of 3D integrated microfluidic chip fabrication, this paper presents a hybrid method for fabricating a microfluidic chip integrated 3D microchannels and metal microstructures by femtosecond laser wet etch technology and liquid metal injection. The integrated microfluidic chip fabricated by this method is expected to be applied to the core reaction unit of integrated PCR devices.

Original language	English
Pages (from-to)	25716-25722
Number of pages	7
Journal	Optics Express
Volume	28
Issue number	18
DOIs	https://doi.org/10.1364/OE.398848
State	Published - 31 Aug 2020

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title = "Femtosecond laser hybrid fabrication of a 3D microfluidic chip for PCR application",

abstract = "Microfluidic chips have gradually become a focus of scientific research. However, the fabrication of key functional components in microfluidic chips is always limited by the existing processing methods. The microfluidic chip is difficult to be three-dimensional (3D) and integrated. In response to the key problems of 3D integrated microfluidic chip fabrication, this paper presents a hybrid method for fabricating a microfluidic chip integrated 3D microchannels and metal microstructures by femtosecond laser wet etch technology and liquid metal injection. The integrated microfluidic chip fabricated by this method is expected to be applied to the core reaction unit of integrated PCR devices.",

author = "Chao Shan and Chengjun Zhang and Jie Liang and Qing Yang and Hao Bian and Jiale Yong and Xun Hou and Feng Chen",

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AU - Shan, Chao

AU - Zhang, Chengjun

AU - Liang, Jie

AU - Yang, Qing

AU - Bian, Hao

AU - Yong, Jiale

AU - Hou, Xun

AU - Chen, Feng

PY - 2020/8/31

Y1 - 2020/8/31

N2 - Microfluidic chips have gradually become a focus of scientific research. However, the fabrication of key functional components in microfluidic chips is always limited by the existing processing methods. The microfluidic chip is difficult to be three-dimensional (3D) and integrated. In response to the key problems of 3D integrated microfluidic chip fabrication, this paper presents a hybrid method for fabricating a microfluidic chip integrated 3D microchannels and metal microstructures by femtosecond laser wet etch technology and liquid metal injection. The integrated microfluidic chip fabricated by this method is expected to be applied to the core reaction unit of integrated PCR devices.

AB - Microfluidic chips have gradually become a focus of scientific research. However, the fabrication of key functional components in microfluidic chips is always limited by the existing processing methods. The microfluidic chip is difficult to be three-dimensional (3D) and integrated. In response to the key problems of 3D integrated microfluidic chip fabrication, this paper presents a hybrid method for fabricating a microfluidic chip integrated 3D microchannels and metal microstructures by femtosecond laser wet etch technology and liquid metal injection. The integrated microfluidic chip fabricated by this method is expected to be applied to the core reaction unit of integrated PCR devices.

UR - https://www.scopus.com/pages/publications/85090380590

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SN - 1094-4087

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JO - Optics Express

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IS - 18

ER -

Femtosecond laser hybrid fabrication of a 3D microfluidic chip for PCR application

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