Showing total 2 results

1. Silver-nanoparticle-based surface-enhanced Raman scattering wiper for the detection of dye adulteration of medicinal herbs.

Author

Li D, Zhu Q, Lv D, Zheng B, Liu Y, Chai Y, and Lu F

Subjects

Coloring Agents analysis, Drug Contamination, Food Contamination analysis, Limit of Detection, Paper, Surface Properties, Coloring Agents isolation & purification, Metal Nanoparticles chemistry, Plants, Medicinal chemistry, Silver chemistry, Spectrum Analysis, Raman methods

Abstract

By using a silver nanoparticle wiper as a surface-enhanced Raman scattering substrate, a highly sensitive, convenient, and rapid platform for detecting dye adulteration of medicinal herbs was obtained. Commercially available filter paper was functionalized with silver nanoparticles to transform it into the flexible wiper. This device was found to collect dye molecules with unprecedented ease. Experiments were performed to optimize various factors such as the type of wiper used, the wetting reagent, and the wetting/wiping mode and time. Excellent wiper performance was observed in the detection of the simulated adulteration of samples with dyes at various concentrations. The limits of detection for nine dyes, including 10(-6) g/mL for malachite green, 10(-7) g/mL for Rhodamine 6G, and 5 × 10(-8) g/mL for methylene blue, were discerned. The results of this investigation show that this proposed method is potentially highly advantageous for field-based applications. Graphical Abstract Schematic diagram illustrating the fabrication of the paper-based SERS substrate, sample collection process on a herb and SERS examination with the portable Raman spectrometer.

Published

2015

2. Silver-nanoparticle-based surface-enhanced Raman scattering wiper for the detection of dye adulteration of medicinal herbs

Author

Dan Li, Binxing Zheng, Diya Lv, Yifeng Chai, Yanhua Liu, Qingxia Zhu, and Feng Lu

Subjects

Paper, Detection limit, Plants, Medicinal, Silver, Materials science, Chromatography, Filter paper, Surface Properties, Metal Nanoparticles, Nanoparticle, Food Contamination, Spectrum Analysis, Raman, Biochemistry, Silver nanoparticle, Analytical Chemistry, Rhodamine 6G, chemistry.chemical_compound, chemistry, Limit of Detection, Reagent, Wetting, Malachite green, Coloring Agents, Drug Contamination, Nuclear chemistry

Abstract

By using a silver nanoparticle wiper as a surface-enhanced Raman scattering substrate, a highly sensitive, convenient, and rapid platform for detecting dye adulteration of medicinal herbs was obtained. Commercially available filter paper was functionalized with silver nanoparticles to transform it into the flexible wiper. This device was found to collect dye molecules with unprecedented ease. Experiments were performed to optimize various factors such as the type of wiper used, the wetting reagent, and the wetting/wiping mode and time. Excellent wiper performance was observed in the detection of the simulated adulteration of samples with dyes at various concentrations. The limits of detection for nine dyes, including 10(-6) g/mL for malachite green, 10(-7) g/mL for Rhodamine 6G, and 5 × 10(-8) g/mL for methylene blue, were discerned. The results of this investigation show that this proposed method is potentially highly advantageous for field-based applications. Graphical Abstract Schematic diagram illustrating the fabrication of the paper-based SERS substrate, sample collection process on a herb and SERS examination with the portable Raman spectrometer.

Published

2015