Synthesis of 2.5 nm colloidal iridium nanoparticles with strong surface enhanced Raman scattering activity

被引:0
作者
Malin Cui
Yuan Zhao
Chan Wang
Qijun Song
机构
[1] Jiangnan University,The Key Laboratory of Food Colloids and Biotechnology, Ministry of Education, School of Chemical and Material Engineering
来源
Microchimica Acta | 2016年 / 183卷
关键词
SERS; Citrate capping; Plasmonic effect; Rhodamine 6G; Sudan red I; Chili; Carcinogen; X-ray photoelectron spectroscopy; High resolution transmission electron microscopy;
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学科分类号
摘要
Colloidal iridium nanoparticles (IrNPs) were synthesized through an environmentally friendly approach by using trisodium citrate as the capping molecule in an aqueous medium. The resulting colloidal IrNPs have a typical diameter of 2.5 nm and display absorption bands at 250, 400 and 600 nm. They possess uniform morphology, good dispersibility, excellent stability in water, and exhibit strong surface enhanced Raman scattering (SERS) activity with an enhancement factor (EF) of 3.5 × 105 at the 1512 cm‾1 peak when using Rhodamine 6G as the probe molecule. The excellent SERS performance of the IrNPs was exemplarily applied to the determination of the industrial colorant Sudan Red I. The peak intensity of the Raman band at 1236 cm‾1 is linearly related to the concentration of Sudan Red I which can be determined by SERS in the 2 nM to 8 μM concentration range with a limit of detection as low as 0.6 nM. In our perception, this strong SERS activity of the IrNPs has a large potential in the SERS-based quantitation of various chemical substances.
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页码:2047 / 2053
页数:6
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[1]  
Wang J(2013)Nanocolloidal gold-based immuno-dip strip assay for rapid detection of Sudan red I in food samples Food Chem 136 1478-1483
[2]  
Wang ZH(2015)Amperometric detection of Sudan I in red chili powder samples using Ag nanoparticles decorated graphene oxide modified glassy carbon electrode Food Chem 166 198-205
[3]  
Liu J(2004)Assay of Sudan I contamination of foodstuff by atmospheric pressure chemical ionization tandem mass spectrometry and isotope dilution Anal Chem 76 5104-5108
[4]  
Li H(2014)Fluorescent nanomicelles for selective detection of Sudan dye in pluronic F127 aqueous media ACS Appl Mater Interfaces 6 5113-5121
[5]  
Li QX(2014)Rapid fluorescence assay for Sudan dyes using polyethyleneimine-coated copper nanoclusters Microchim Acta 181 1069-1075
[6]  
Li J(2007)Development of a highly sensitive and specific enzyme-linked immunosorbent assay for detection of Sudan I in food samples J Agric Food Chem 55 6424-6430
[7]  
Xu T(2013)Low-level detections of Sudan I, II, III and IV in spices and chili containing foodstuffs using UPLC-ESI-MS/MS J Agric Food Chem 61 2284-2289
[8]  
Prabakaran E(2014)Occurrence of Sudan I in paprika fruits caused by agricultural environmental contamination J Agric Food Chem 62 4072-4076
[9]  
Pandian K(2014)Superhydrophobic-oleophobic Ag nanowire platform: an analyte concentrating and quantitative aqueous and organic toxin surface enhanced Raman scattering sensor Anal Chem 86 10437-10444
[10]  
Donna LD(2012)Gold nanorod assembly based approach to toxin detection by SERS J Mater Chem 22 2387-2391
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