Silver Nanoflowers as an Interfacial Liquid-State Surface Enhanced Raman Spectroscopy (SERS) Sensor for Water Pollution

Iraqi journal of laser Pub Date : 2023-12-15 DOI:10.31900/ijl.v22i2.405

Zinah Salahuddin Shakir*, Ayad Abdul Razzak Dhaigham, Sameer Khudhur Yaseen

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Abstract

Water pollution has created a critical threat to the environment.‎‎ A lot of research has been done ‎recently to use surface-enhanced Raman spectroscopy (SERS) to detect multiple pollutants in water. This study aims to use Ag colloid nanoflowers as liquid SERS enhancer. Tri sodium phosphate (Na3PO4) was investigated as a pollutant using liquid SERS ‎based on colloidal Ag ‎nanoflowers. The chemical method was used to synthesize nanoflowers from silver ‎ions. Atomic Force Microscope (AFM), Scanning Electron Microscope (SEM), and X-ray diffractometer (XRD) were employed to characterize the silver nanoflowers. This ‎nanoflowers SERS action in detecting Na3PO4 was reported and analyzed concerning both shape and size using a 532 ‎nm laser. We observed that the nanoflower's structure produced strong SERS signals. The increase in the SERS signal is related to ‎the deposition of Na3PO4 molecules in the aggregated silver nanostructure ‎in the solution. The concentration of Na3PO4 plays a main role in detection since the Raman ‎signal becomes stronger as the concentration increases. The highest phosphate analytical enhancement factor obtained for SERS in colloidal nanoflowers was 1.7×103 at 0.7×10-6 M which was the lowest concentration.

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银纳米流作为水污染的界面液态表面增强拉曼光谱 (SERS) 传感器

水污染对环境造成了严重威胁。近来，利用表面增强拉曼光谱（SERS）检测水中多种污染物的研究层出不穷。本研究旨在使用银胶体纳米花作为液体 SERS 增强剂。利用基于胶体银纳米花的液体 SERS 对作为污染物的磷酸三钠（Na3PO4）进行了研究。采用化学方法从银离子中合成纳米花。使用原子力显微镜（AFM）、扫描电子显微镜（SEM）和 X 射线衍射仪（XRD）对银纳米花进行了表征。使用 532 nm 激光对纳米银花检测 Na3PO4 的 SERS 作用进行了报告，并分析了其形状和大小。我们观察到纳米花的结构产生了强烈的 SERS 信号。SERS 信号的增加与溶液中聚集的纳米银结构中 Na3PO4 分子的沉积有关。Na3PO4 的浓度在检测中起着主要作用，因为拉曼信号随着浓度的增加而变强。胶体纳米花中的 SERS 在 0.7×10-6 M（最低浓度）时获得的最高磷酸盐分析增强因子为 1.7×103。

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Iraqi journal of laser

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