微流体进化与表面功能化:增强重金属离子检测的途径

Zhejun Xu, Arun Jaiswal, Xiaochen Liu, Zhenxu Yang, Qiankun Yin, Kien Voon Kong, Ken-Tye Yong
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引用次数: 0

摘要

这篇综述深入探讨了自 2017 年以来微流体技术取得的重大进展,强调了微流体技术在缩小设备尺寸和集成先进表面功能化技术方面的关键作用。它展示了微流体技术这一跨学科领域如何在微观尺度上彻底改变了流体操纵,从而创造出用于现场分析(如重金属离子检测)的经济高效的便携式设备。从早期扎根于古老的观测方法,到硅片、玻璃、聚二甲基硅氧烷(PDMS)和纸张等材料的尖端应用,这篇综述描绘了微流体技术的动态发展。它强调了表面功能化方法(包括硅烷化和等离子处理)在提高设备材料性能方面的变革性影响。此外,这篇综述还预测了微流体技术与液滴微流体技术、三维(3D)打印技术等新兴技术以及纳米技术令人兴奋的融合,并预测了精密分析工具、护理点诊断和改良检测系统的未来。报告承认在扩大生产规模、实现普遍可靠性和标准化方面存在障碍。这篇综述强调了微流控技术对诊断和环境监测的变革性影响,强调了它在部署紧凑型传感器以全面和同步评估水质方面的实用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Microfluidics Evolution and Surface Functionalization: A Pathway to Enhanced Heavy Metal Ion Detection

Microfluidics Evolution and Surface Functionalization: A Pathway to Enhanced Heavy Metal Ion Detection

This review delves into the significant advancements in microfluidic technology since 2017, highlighting its critical role in shrinking device sizes and integrating advanced surface functionalization techniques. It showcases how microfluidics, an interdisciplinary field, has revolutionized fluid manipulation on a microscale, enabling the creation of cost-effective, portable devices for on-the-spot analyses, like heavy metal ion detection. From its early days rooted in ancient observations to cutting-edge uses of materials like silicon, glass, polydimethylsiloxane (PDMS), and paper, this review charts microfluidics’ dynamic evolution. It emphasizes the transformative impact of surface functionalization methods, including silanization and plasma treatments, in enhancing device materials' performance. Moreover, this review anticipates the exciting convergence of microfluidics with emerging technologies like droplet microfluidics and three-dimensional (3D) printing, alongside nanotechnology, forecasting a future of sophisticated analytical tools, point-of-care diagnostics, and improved detection systems. It acknowledges the hurdles in scaling production and achieving universal reliability and standardization. This review highlights the transformative impact of microfluidic technology on diagnostics and environmental surveillance, emphasizing its utility in deploying compact sensors for comprehensive and concurrent evaluations of water quality.

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