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Predicting Dimensions in Microfluidic Paper Based Analytical Devices

Authors:
R. Catalan-Carrio, T. Akyazi, L. Basabe-Desmonts, F. Benito-Lopez
Year:
2021
Journal:
Sensors
Impact Factor:
3.847
Quartile:
Q2
Volume:
21 (101)
Initial page - Ending page:
1 - 12
ISBN/ISSN:
1424-8220
DOI:
https://doi.org/10.3390/s21010101
Description:

The main problem for the expansion of the use of microfluidic paper-based analytical devices and, thus, their mass production is their inherent lack of fluid flow control due to its uncontrolled fabrication protocols. To address this issue, the first step is the generation of uniform and reliable microfluidic channels. The most common paper microfluidic fabrication method is wax printing, which consists of two parts, printing and heating, where heating is a critical step for the fabrication of reproducible device dimensions. In order to bring paper-based devices to success, it is essential to optimize the fabrication process in order to always get a reproducible device. Therefore, the optimization of the heating process and the analysis of the parameters that could affect the final dimensions of the device, such as its shape, the width of the wax barrier and the internal area of the device, were performed. Moreover, we present a method to predict reproducible devices with controlled working areas in a simple manner.

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