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Three-Dimensional Large-Scale Fused Silica Microfluidic Chips Enabled by Hybrid Laser Microfabrication for Continuous-Flow UV Photochemical Synthesis

Aodong Zhang, Jian Xu, Yucen Li, Ming Hu, Zijie Lin, Yunpeng Song, Jia Qi, Wei Chen, Zhaoxiang Liu, Ya Cheng

2022Micromachines18 citationsDOIOpen Access PDF

Abstract

We demonstrate a hybrid laser microfabrication approach, which combines the technical merits of ultrafast laser-assisted chemical etching and carbon dioxide laser-induced in situ melting for centimeter-scale and bonding-free fabrication of 3D complex hollow microstructures in fused silica glass. With the developed approach, large-scale fused silica microfluidic chips with integrated 3D cascaded micromixing units can be reliably manufactured. High-performance on-chip mixing and continuous-flow photochemical synthesis under UV irradiation at ~280 nm were demonstrated using the manufactured chip, indicating a powerful capability for versatile fabrication of highly transparent all-glass microfluidic reactors for on-chip photochemical synthesis.

Topics & Concepts

MicrofabricationMicrofluidicsMaterials scienceScale (ratio)LaserNanotechnologyFlow (mathematics)OptoelectronicsOpticsFabricationMathematicsPathologyAlternative medicineQuantum mechanicsGeometryPhysicsMedicineInnovative Microfluidic and Catalytic Techniques Innovation3D Printing in Biomedical ResearchMicrofluidic and Capillary Electrophoresis Applications
Three-Dimensional Large-Scale Fused Silica Microfluidic Chips Enabled by Hybrid Laser Microfabrication for Continuous-Flow UV Photochemical Synthesis | Litcius