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Freeform microfluidic networks encapsulated in laser printed three-dimensional macro-scale glass objects

Authors :
Lin, Zijie
Xu, Jian
Song, Yunpeng
Li, Xiaolong
Wang, Peng
Chu, Wei
Wang, Zhenhua
Cheng, Ya
Publication Year :
2019

Abstract

Large-scale microfluidic microsystems with complex three-dimensional (3D) configurations are highly in demand by both fundamental research and industrial application, holding the potentials for fostering a wide range of innovative applications such as lab-on-a-chip and organ-on-a-chip as well as continuous-flow manufacturing of fine chemicals. However, freeform fabrication of such systems remains challenging for most of the current fabrication techniques in terms of fabrication resolution, flexibility, and achievable footprint size. Here, we report ultrashort pulse laser microfabrication of freeform microfluidic circuits with high aspect ratios and tunable diameters embedded in 3D printed glass objects. We achieve uniform microfluidic channel diameter by carefully distributing a string of extra access ports along the microfluidic channels for avoiding the over-etching in the thin microfluidic channels. After the chemical etching is completed, the extra access ports are sealed using carbon dioxide laser induced localized glass melting. We demonstrate a model hand of fused silica with a size of ~3 cm * 2.7 cm * 1.1 cm in which the whole blood vessel system is encapsulated.<br />Comment: 27 pages, 5 figures

Subjects

Subjects :
Physics - Applied Physics

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2001.03589
Document Type :
Working Paper