利用聚苯胺 (PAni) 功能化表面指示微流控多孔介质中的原位 pH 值测量

Ge Zhang, Negar Nazari, A. Kovscek
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引用次数: 0

摘要

水相 pH 值是一个关键指标,对于了解多孔介质中的反应传输过程具有重要意义。然而,在微观尺度上,由于样品量和传感时间有限,传统的 pH 值检测方法在捕捉动态 pH 值方面面临挑战。为了克服这些限制,我们利用微/纳米加工技术制造了一种表面涂有聚苯胺(PAni)的微流体多孔介质。利用这种创新的微流控设计,我们实现了多孔介质中 pH 空间分布的比色描绘,响应速度快且稳健。通过在砂岩图案的微流控装置中以不同的流速和相对流速比进行盐酸(pH = 2)和去离子水(pH ≈ 5.8,用空气平衡)的共注试验,我们观察到了多孔介质中 pH 的动态变化,并对酸的平流-扩散动力学有了全面的了解。结果凸显了 PAni 实现微尺度 pH 值传感的能力。这项研究有助于先进多孔介质微流控技术的开发和应用,特别是在二氧化碳封存和地质储氢的反应传输过程中的传质极限方面。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
In Situ pH Measurement in Microfluidic Porous Media Indicated by Surfaces Functionalized with Polyaniline (PAni)
Aqueous phase pH is a critical metric with significant importance in understanding reactive transport processes in porous media. At the microscale, however, traditional pH detection methods face challenges in capturing dynamic pH due to limited sample volume and sensing time. To overcome these limitations, we leveraged micro/nanofabrication techniques to create a microfluidic porous medium coated with polyaniline (PAni) on its surface. Using this innovative microfluidic design, we achieved colorimetric delineation of pH spatial distribution with fast response and robustness in porous media. By conducting coinjection tests with hydrochloric acid (pH = 2) and DI water (pH ≈ 5.8, equilibrated with air) at various flow rates and relative flow rate ratios in a sandstone-patterned microfluidic device, we observed dynamic pH changes in porous media and obtained a comprehensive understanding of the acid advection-diffusion dynamics. The results highlighted the capability of PAni to enable microscale pH sensing. This research contributes to the development of advanced porous media microfluidics and applications, particularly in mass transfer limits during reactive transport of carbon dioxide sequestration and geological hydrogen storage.
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