Chemical and Environmental Engineering Institute, Dalian University, Dalian, 116622, China.
Environmental Micro Total Analysis Lab, Dalian University, Dalian, 116622, China.
Anal Bioanal Chem. 2021 May;413(12):3299-3313. doi: 10.1007/s00216-021-03269-9. Epub 2021 Mar 24.
Here, we present the rational design of a pinwheel-shaped three-dimensional microfluidic paper-based analytical device (3D-μPAD) for specific, sensitive and multiplexed detection of heavy metals in coastal waters. A more homogeneous permeation of fluids along the chip than common design, even under unskilled performance, has been achieved by the elaborate chip design of the hydrostatic balancing inlet port and uniformly stressed reversible sealing. With the combination of ion imprinted polymer grafted CdTe quantum-dots and fluid accumulation pad, 4 metals (Cu, Cd, Pb, and Hg) in 1 analysis and 25-fold enrichment for each metal can be simultaneously performed within 20 min, with detection limits of 0.007-0.015 μg/L. It has the ability to selectively recognize these 4 metals in mixtures and immunizing to interferences from components found in coastal waters, which provided results that were in agreement with values gained from atomic absorption. The inexpensive and portable nature as well as the highly sensitive and flexible performance of the new developed 3D-μPAD could make it attractive as an on-site testing approach for marine environmental monitoring.
在这里,我们提出了一种风车形三维微流控纸基分析器件(3D-μPAD)的合理设计,用于特定、敏感和多重检测沿海水中的重金属。通过精心设计的静水力学平衡入口和均匀受力可逆密封的芯片,实现了比常见设计更均匀的流体渗透,即使在非熟练操作下也是如此。通过将离子印迹聚合物接枝 CdTe 量子点和流体积累垫相结合,可以在 20 分钟内同时进行 4 种金属(Cu、Cd、Pb 和 Hg)的分析,每种金属的富集倍数为 25 倍,检测限为 0.007-0.015μg/L。它具有在混合物中选择性识别这 4 种金属的能力,并能抵御来自沿海水中成分的干扰,其结果与原子吸收法获得的值一致。新开发的 3D-μPAD 具有价格低廉、便携、高灵敏度和灵活性能的特点,有望成为海洋环境监测的现场测试方法。
