Abstract
This study proposed a novel method for the rapid fabrication of paper-based microfluidic devices using a roll-to-roll wax transfer method. In this approach, a custom-made device was designed and fabricated for the direct roll-to-roll wax transfer from commercially available wax ribbon to the surface of paper substrate. After wax transfer, a thermal reflow process was conducted to enable the melt wax penetration through the whole thickness of the hydrophilic paper substrate to form hydrophobic wax barriers. Compared with the conventional approaches for paper-based microfluidics (wax printing, photolithography, and inkjet printing), the proposed fabrication technique for paper-based microfluidic devices is suitable for the batch fabrication of paper-based microfluidic chips at high production speed. Additional advantages including simple fabrication process, low material and fabrication cost, low-energy consumption, and without the requirement of cleanroom environment or facilities. The paper-based microfluidics fabricated with the proposed roll-to-roll wax transfer method is widely adaptable for microfluidic applications in biological and chemical fields.
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