1. Microfluidic flow modulation with digitized sizing pattern in Xuan paper-based analytical devices
- Author
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Jose H. Lizama, Hsiu-Yang Tseng, Yi-Wei Shen, and Chiu-Jen Chen
- Subjects
Xuan paper ,Alum-glue ,Flow modulation ,Patternability ,Wicking profile ,Paper-based microfluidics ,Engineering (General). Civil engineering (General) ,TA1-2040 - Abstract
Spatially resolved fluid-flow modulation and its corresponding integration becomes a crucial aspect to consider when designing high-performing paper-based analytical devices. As such, high demand exists for cost-effective techniques able to selectively control flow in patternable regions of the device. In this regard, a solution composed of potassium alum and animal glue; sizing materials used in the fabrication of calligraphy Xuan paper, is successfully adapted for the first time in a revolutionary approach to efficiently modulate the capillary flow in paper microfluidic channels. Flow delays are achieved by coating the substrate systematically through the variation of parameters such as the ratio of alum to glue, the concentration of alum-glue in the solution, and the number of subsequent coating layers of alum-glue. Moreover, digitized patterning with alum-glue is developed to achieve programmable wicking profiles of accelerating, decelerating, and quasi-linear flow displacement by alternating coated and uncoated zones in the channel. Additionally, the influence of alum-glue when performing biometric assays is investigated by performing a horseradish peroxidase activity colorimetric assay and found to have negligible effects on reading, where a negligible difference of 5.2% was observed in an assay performed in a coated paper substrate, compared to an uncoated one.
- Published
- 2022
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