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Proceedings Paper

Quantitative analysis of ceftazidime using SERS based on silver nanoparticles substrate
Author(s): Haiyan Qi; Huacai Chen; Shuhui Zhao; Jie Huang
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Paper Abstract

With the increasing abuse of antibiotics, more attention has been focused on the potential harm on ecological environment and human health. The aim of this study was quantitative analysis of ceftazidime using Surface Enhanced Raman spectroscopy (SERS). Flower-shaped silver nanoparticles adsorbed on silicon wafer were fabricated in an aqueous medium without heavy metal or organic wastes. The limits of detection (LOD) of Rhodamine 6G (R6G) could reached to 10-9 M, indicating that the substrates had high SERS activity. Meanwhile, the substrates showed excellent stability and uniformity. Flower-shaped silver nanoparticles substrates were selected as substrates for detecting the SERS spectra of ceftazidime in different concentrations. The information about the structure of ceftazidime molecule was reflect by Raman vibration assignments efficiently. Based on the Raman characteristic bands of ceftazidime, four quantitative analysis models using linear regression were compared. It was found that equation between log10C (C refers to the concentration of ceftazidime) and Iavg (average intensity) of Raman characteristic bands (749 cm-1 , 850 cm-1 and 1025 cm-1) was more suitable for quantitative analysis of ceftazidime, and correlation coefficient R2 was up to 0.96. The quantitative model was used to detect the concentration of ceftazidime in practical surface water sample (10-2 g/L), and the relative error between actual values and calculated values was 1.95%. This method is high sensitivity and rapid, which is potentially a powerful tool for quantitative analysis of other antibiotics.

Paper Details

Date Published: 25 October 2018
PDF: 7 pages
Proc. SPIE 10823, Nanophotonics and Micro/Nano Optics IV, 1082313 (25 October 2018); doi: 10.1117/12.2327048
Show Author Affiliations
Haiyan Qi, China Jiliang Univ. (China)
Huacai Chen, China Jiliang Univ. (China)
Shuhui Zhao, China Jiliang Univ. (China)
Jie Huang, China Jiliang Univ. (China)


Published in SPIE Proceedings Vol. 10823:
Nanophotonics and Micro/Nano Optics IV
Zhiping Zhou; Kazumi Wada, Editor(s)

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