Laser melting of Parafilm-wax: a novel approach to hydrophobic barrier formation in paper-based microfluidics

IF 2.6 3区化学 Q2 CHEMISTRY, ANALYTICAL

Analytical Methods Pub Date : 2025-06-03 DOI:10.1039/D5AY00725A

Akshay A. Kamble, Gourav Samal and Bhushan J. Toley

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Abstract

We present a novel method for fabricating microfluidic paper-based analytical devices (μPADs) using laser melting of Parafilm wax to form hydrophobic barriers. This approach involves placing Parafilm on filter paper and patterning it with a CO₂ laser, which locally melts the wax to create embedded flow barriers. Crucially, the Parafilm is peeled off post-patterning, preserving both surfaces of the paper and enabling vertical flow assays. Optimal laser parameters were determined to ensure consistent barrier formation without damaging the paper. The technique enabled the fabrication of channels as narrow as 800 μm. Compatibility with biochemical assays was confirmed through colorimetric detection of glucose and protein, and through a vertical flow enzyme-linked immunosorbent assay (ELISA) for human IgG, with a detection limit of 3.9 ng mL⁻¹. This single-step, reflow-free method is simple, reproducible, and accessible, leveraging materials and equipment readily available in standard laboratories. It lowers the technical barriers to μPAD fabrication and enables both planar and vertical assay formats, expanding the scope of paper-based diagnostics for point-of-care applications.

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激光熔化副膜蜡：纸基微流体中疏水屏障形成的新方法。

本文提出了一种利用激光熔化副膜蜡形成疏水屏障来制备微流控纸基分析器件的新方法。这种方法包括将parfilm放置在滤纸上，并用CO2激光将其打上图案，从而在局部熔化蜡以形成嵌入的流动屏障。至关重要的是，Parafilm在图案制作后被剥离，保留了纸张的两个表面，并允许垂直流动分析。确定了最佳激光参数，以确保在不损坏纸张的情况下形成一致的障壁。该技术可以制造窄至800 μm的通道。通过葡萄糖和蛋白质的比色检测和人IgG的垂直流动酶联免疫吸附试验（ELISA）确认与生化试验的相容性，检测限为3.9 ng mL-1。这种单步、无回流的方法简单、可重复、易于使用，利用标准实验室中现成的材料和设备。它降低了μPAD制造的技术壁垒，并支持平面和垂直分析格式，扩大了基于纸张的诊断范围，适用于护理点应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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