A novel controllable nanocyclic plasma coupled array in SERS trace detection of multi-component pollutants.

Xuanyang Ding, Zhuangzhuang Ling, Jinghuai Fang, Mingfei Cheng, Jing Wu
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Abstract

The development and design of a novel, uniform and highly active local electromagnetic field enhanced structure is crucial for expanding Surface-enhanced Raman Scattering (SERS) applications. In this study, we developed Ag ring-coupled nanoarrays (Ag RCNAs) with controllable nanogaps using a substrate rotary evaporation coating technique with self-assembled polystyrene (PS) microspheres as templates. This straightforward and cost-effective method efficiently prepares plasma-coupled nanoarrays. Ag RCNAs demonstrated high sensitivity in detecting organic dyes, our prepared Ag RCNAs showed high sensitivity (with the limit of detection of 10-8 M), high signal reproducibility (with the relative standard deviation of 6.73 %). Furthermore, Ag RCNAs showed remarkable sensitivity to a broad spectrum of dyes in river water, indicating the large-area uniform and highly active circular-ring-shaped nanogaps can realize highly sensitive detection of various pollutants. This approach offers advantages in electromagnetic field enhancement, tunable nanogaps, uniformity, reproducibility, and recyclability, making it promising for applications in environmental monitoring, bioassays, food safety, and medical diagnostics.

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用于 SERS 多组分污染物痕量检测的新型可控纳米环等离子体耦合阵列。
开发和设计一种新颖、均匀和高活性的局部电磁场增强结构对于扩大表面增强拉曼散射(SERS)的应用至关重要。在本研究中,我们以自组装聚苯乙烯(PS)微球为模板,采用基底旋转蒸发镀膜技术开发了具有可控纳米间隙的银环耦合纳米阵列(Ag RCNAs)。这种简单易行、经济高效的方法能有效制备等离子体耦合纳米阵列。我们制备的 Ag RCNAs 在检测有机染料方面表现出高灵敏度(检测限为 10-8 M)、高信号重现性(相对标准偏差为 6.73 %)。此外,银 RCNAs 对河水中的多种染料都表现出显著的灵敏度,这表明大面积均匀、高活性的环形纳米缝隙可以实现对多种污染物的高灵敏度检测。这种方法具有电磁场增强、可调纳米间隙、均匀性、可重复性和可回收性等优点,因此在环境监测、生物测定、食品安全和医疗诊断等领域具有广阔的应用前景。
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