High SERS performance of functionalized carbon dots in the detection of dye contaminants.

Journal of advanced research Pub Date : 2025-02-01 Epub Date: 2024-02-09 DOI:10.1016/j.jare.2024.02.004

Yanqiu Yang, Lingru Kong, Yong Ding, Lixin Xia, Shuo Cao, Peng Song

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引用次数: 0

Abstract

Introduction: The long-term overuse of malachite green (MG) has potential carcinogenic, teratogenic, and mutagenic effects. The functional nanocomposite is novel and challenging to construct and implement through surface enhanced Raman scattering (SERS) strategy to reveal the contributions in application.

Objectives: The novel Ag-CDs (carbon dots)-PBA (phenyl boric acid) nanocomposite was constructed by a facile route to detect toxic MG molecule with high SERS sensitivity and good uniformity.

Methods: The enhanced substrate used for the detection of MG has been successfully constructed using PBA modulated Ag-CDs on a structured surface with rich binding sites.

Results: The fabricated Ag-CDs-PBA substrate can be used to analyze various probe molecules exhibiting high sensitivity, good signal reproducibility, and excellent stability. The mechanism between components has been proved by calculations originating from the plasmonic Ag and active electronic transmission among the bridging CDs and PBA via the close spatial π-π effect. In addition, the accelerated separation of electron-hole pairs was triggered to further improve the SERS activity of the hybrid via a bidirectional charge transfer (CT) process. Significantly, the Ag-CDs-PBA system shows distinctive selectivity, in which PBA can hinder the interference of other species without specific hydroxyl groups.

Conclusion: Based on this deeper insight on plasmon-mediated mechanism, the SERS substrate was successfully practiced for quantitative determination in real water and fish samples. The strategy developed promises to be a new sensor technology and has great potential for environmental and food safety applications.

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功能化碳点在染料污染物检测中的高 SERS 性能。

导言：长期过量使用孔雀石绿（MG）具有潜在的致癌、致畸和致突变作用。通过表面增强拉曼散射（SERS）策略构建和实施功能纳米复合材料，以揭示其在应用中的贡献，是一项新颖而富有挑战性的工作：目的：通过简便的方法构建了新型 Ag-CDs（碳点）-PBA（苯基硼酸）纳米复合材料，用于检测具有高 SERS 灵敏度和良好均匀性的有毒 MG 分子：方法：在具有丰富结合位点的结构表面上使用 PBA 调制的 Ag-CDs 成功构建了用于检测 MG 的增强基底：结果：所制备的 Ag-CDs-PBA 底物可用于分析各种探针分子，具有灵敏度高、信号重现性好和稳定性优异等特点。通过计算，证明了各成分之间的机理，即通过紧密的空间π-π效应，桥接 CD 和 PBA 之间的等离子体 Ag 和主动电子传输。此外，通过双向电荷转移（CT）过程，电子-空穴对的加速分离被触发，从而进一步提高了混合物的 SERS 活性。值得注意的是，Ag-CDs-PBA 系统显示出独特的选择性，其中 PBA 可以阻止其他没有特定羟基的物种的干扰：结论：基于对等离子体介导机制的深入了解，SERS 底物被成功用于实际水和鱼类样品的定量检测。所开发的策略有望成为一种新的传感器技术，在环境和食品安全应用方面具有巨大潜力。

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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Journal of advanced research

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