基于表面增强拉曼光谱的苹果毒死蜱残留无损检测方法  被引量：17

作　　者：翟晨[1] 彭彦昆[1] 李永玉[1] 徐田锋 

机构地区：[1]中国农业大学工学院,北京100083

出　　处：《化学学报》2015年第11期1167-1172,共6页Acta Chimica Sinica

基　　金：国家科技支撑项目(No.2014BAD04B05)资助~~

摘　　要：对表面增强拉曼光谱（Surface Enhanced Raman Spectroscopy,SERS）技术在苹果毒死蜱残留量无损快速准确检测中的应用进行了研究.以银溶胶作为表面增强剂,采用实验室搭建的拉曼光谱系统,无损地采集苹果样品拉曼光谱.分别采用二阶导数法（Secondary Derivative Transformation,SD）和极小极大值自适应缩放法（Min-max Signal Adaptive Zooming,MSAZ）扣除所得拉曼光谱的荧光背景以消除样品和环境的干扰,从而提高检测的准确度.对获取光谱后的苹果样品采用标准理化方法检测其毒死蜱含量,在最优条件下,建立拉曼光谱与15.52~0.064 mg/kg范围内毒死蜱含量的线性关系,结果表明毒死蜱的两个主要特征峰强度和其浓度呈良好的线性关系,预测集的相关系数为0.969,预测均方根误差为1.24 mg/kg.本研究所开发的方法为果蔬安全品质的无损快速检测提供了一种新思路.A new non-destructive, rapid and accurate surface-enhanced Raman spectroscopy（SERS） assay method using silver colloidal nanoparticles for the detection of chlorpyrifos pesticides in apples is developed and optimized. Silver colloidal nanoparticles are paperad by reduction of silver nitrate with hydroxylamine hydrochloride and investigated using scanning electron microscope and visible-ultraviolet spectroscopy. Trace amounts of acetone, silver colloid, and nitric acid are dropped onto apple samples and air exposed for 20 s. The SERS spectra are collected non-destructively from the apple sample with a self-developed Raman system. The relative standard deviation（RSD） is calculated to evaluate the stability of the present method, including the stability of silver colloid and the stability of the Raman system, which indicates that the proposed strategy has good stability. Secondary derivative transformation and min-max signal adaptive zooming method are used to remove the fluorescence background for eliminating the environmental impact and improving the accuracy of SERS results. Raman spectral signals are collected from 30 points on each sample with 450 m W laser power and 3 s exposure time. Chlorpyrifos concentrations in 41 samples are determined with gas chromatography after SERS spectra taken. The characteristic peaks of chlorpyrifos at 621 cm^-1 and 680 cm^-1 are visible even at the concentration of 0.064 mg/kg. Under optimal conditions, linear regression models are established between the SERS signal and the chlorpyrifos concentrations in the range of 15.52~0.064 mg/kg. There are good linear relationships between the concentrations of chlorpyrifos pesticides in apples and the Raman intensities of its two major characteristic peaks, for the best of which the correlation coefficient of prediction（Rp） is 0.969 and the root mean square error of prediction（RMSEP） is 1.24 mg/kg. The present study provides a potential method for the rapid detection of pesticides which can help to strengthen the safety an

关 键 词：表面增强拉曼光谱 银溶胶 毒死蜱 无损检测 苹果 

分 类 号：O657.37[理学—分析化学]