DETECTION OF RHODAMINE VIA SURFACE ENHANCED RAMAN SPECTROSCOPY UTILISING AG NANOWIRES

Eskişehir Technical University Journal of Science and Technology A - Applied Sciences and Engineering Pub Date : 2023-11-06 DOI:10.18038/estubtda.1237440

K. Ay

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Abstract

Rhodamine, which is extensively used as a synthetic dye in food industry, is regarded as an illegal additive by European Food Safety Authority because of its carcinogenic and toxicological properties. Since it’s a colourless material at low concentrations such as 10-7 M, its detection via spectroscopical methods is very challenging and crucial in terms of food safety issues. Surface Enhanced Raman Spectroscopy (SERS) provides a fast and cheap method for detection of such molecules at ultra-low concentrations. It is based on the principle of boosting Raman signals, which have low intensity by nature, by utilising metal nanoparticles in order to enhance Raman signals by creating hot-spots. In this study Ag nanowires were synthesized, their crystal structure is characterized via XRD analysis, their surface morphology and radius are determined via SEM images and EDS analysis was performed for determining their chemical composition. Afterwards, rhodamine solutions which were prepared at 10-4 – 10-7 M was dropcasted onto Ag nanowire solutions. After selecting three characteristic Raman peaks belonging to the Rhodamine molecule, which are located at 612, 1189 and 1362 cm-1, detection of Rhodamine was performed at these ultra low concentrations. As a result, one can conclude that, Ag nanowires can be utilized as possible SERS substrates for detection of Rhodamine at low concentrations by exhibiting significant reproducibility, stability and recyclability.

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利用 Ag 纳米线的表面增强拉曼光谱法检测罗丹明

罗丹明是食品工业中广泛使用的一种合成染料，由于其致癌和有毒的特性，被欧洲食品安全局视为非法添加剂。由于罗丹明在低浓度（如 10-7 M）时是一种无色物质，因此通过光谱方法对其进行检测在食品安全问题上非常具有挑战性和关键性。表面增强拉曼光谱（SERS）为超低浓度下检测此类分子提供了一种快速、廉价的方法。它的原理是利用金属纳米粒子产生热点来增强拉曼信号，从而增强本质上强度较低的拉曼信号。本研究合成了银纳米线，通过 XRD 分析确定了其晶体结构，通过 SEM 图像确定了其表面形态和半径，并通过 EDS 分析确定了其化学成分。然后，将制备好的 10-4 - 10-7 M 的罗丹明溶液滴加到银纳米线溶液上。在选择了属于罗丹明分子的三个特征拉曼峰（分别位于 612、1189 和 1362 cm-1 处）后，在这些超低浓度下对罗丹明进行了检测。因此，我们可以得出这样的结论：银纳米线可以作为 SERS 底物，在低浓度下检测罗丹明，并表现出显著的可重复性、稳定性和可回收性。

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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Eskişehir Technical University Journal of Science and Technology A - Applied Sciences and Engineering

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