荧光谱及平行因子分析在芝麻油与芝麻香精鉴别中的应用

doi:10.3969/j.issn.1000-1158.2016.06.23

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摘要利用FS920荧光光谱仪测量21种芝麻油和同品牌不同批次2种芝麻香精共23个样品的荧光光谱,并对激发-发射荧光谱数据矩阵(EEMs)进行平行因子分析,确定了平行因子分析模型的因子数及各因子的物质基础。综合分析同步三维荧光谱、激发-发射三维荧光谱及其等高线光谱图,给出了芝麻油及芝麻香精的峰位、峰数和峰强等特征信息;应用平行因子模型建立了芝麻油及芝麻香精的3因子激发、发射光谱轮廓图和样本因子相对含量图。证实荧光光谱技术和平行因子分析法对芝麻油和芝麻香精进行分析和鉴别的有效性。

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	吴希军
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关键词 ：计量学, 芝麻油, 芝麻香精, 荧光谱, 平行因子分析

Abstract：The fluorescence spectra of twenty-one sesame oil samples and two sesame essence samples are measured with FS920 fluorescence spectrometer. Parallel factor analysis (PARAFAC) is applied to resolve excitation-emission fluorescence matrices (EEM). The factor-number and constituents corresponding to each factor are ascertained. The map feature (peak position, peak value and peak number) are obtained by analyzing synchronous fluorescence spectra of three-dimensional, three-dimensional excitation-emission fluorescence spectra and contour maps. The three-factor excitation and emission profiles and factor relative content plots of PARAFAC model are plotted. These results indicate the capability of the combination of fluorescence spectra techniques and three-factor PARAFAC model to differentiate sesame oils and sesame essence.

Key words： metrology sesame oil sesame essence fluorescence spectra parallel factor analysis

收稿日期: 2015-01-08 发布日期: 2016-10-14

PACS:

TB99

基金资助:国家自然科学基金(61201110);河北省自然科学基金(C2014203212);河北省教育厅优秀青年基金(Y2012030);燕山大学青年教师自主研究计划课题(13LGB013, 13LGB032）

通讯作者: 吴希军 E-mail: wuxijun@ysu.edu.cn

作者简介: 吴希军（1979-）,男,河北邯郸人,燕山大学副教授,博士,研究方向为光谱分析与光纤传感。wuxijun@ysu.edu.cn

引用本文:

吴希军,田瑞玲,杜德琴. 荧光谱及平行因子分析在芝麻油与芝麻香精鉴别中的应用[J]. 计量学报, 2016, 37(6): 657-662.
WU Xi-jun,TIAN Rui-ling,DU De-qin. Application of Fluorescence Spectra and Parallel Factor Analysis to the Discrimination between Sesame Oil and Sesame Essence. Acta Metrologica Sinica, 2016, 37(6): 657-662.

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http://jlxb.china-csm.org:81/Jwk_jlxb/CN/10.3969/j.issn.1000-1158.2016.06.23 或 http://jlxb.china-csm.org:81/Jwk_jlxb/CN/Y2016/V37/I6/657

［1］贾洪锋, 邓红, 梁爱华. 电子鼻在芝麻油掺芝麻油香精识别中的应用［J］.中国粮油学报,2013,28(8):83-86.
［2］任小娜, 毕艳兰, 彭丹, 等. 粒子群最小二乘支持向量机结合偏最小二乘法用于芝麻油质量的鉴别［J］. 分析化学, 2013,41(9):1366-1372.
［3］杨佳,武彦文,李冰宁, 等. 近红外光谱结合化学计量学研究芝麻油的真伪与掺伪［J］. 中国粮油学报, 2014,29(3):114-119.
［4］彭翠红,王少玲,徐永群,等. 荧光光谱法快速鉴别花生油、芝麻油和调和油［J］. 光谱实验室, 2012,29(2):750-756.
［5］Bro R. PARAFAC. Tutorial and applications［J］. Chemomemcs and Intelligent Laboratory Systems,1997,38（2）:149-171.
［6］Bro R, Kiers H A L. A new efficient method for determining the number of components in PARAFAC models［J］. Journal of Chemometrics, 2003,17（5）: 274-286.
［7］Tomasi G, Bro R. PARAFAC and missing values［J］. Chemometrics and Intelligent Laboratory Systems, 2005,75（2）:163-180.
［8］杨丽丽, 王玉田, 鲁信琼. 水中石油类污染物的光纤荧光在线测量技术研究［J］.计量学报,2014,35(4):393-397.
［9］Chen Z P, Liu Z, Cao Y Z, et al. Efficient way to estimate the optimum number of factors for trilinear decomposition［J］. Analytica Chemica Acta, 2001, 444(2):295-307.
［10］Valderrama P, Maro P H, Locquet N, et al. A procedure to facilitate the choice of the number of factors in multi-way data analysis applied to the natural samples: Application to monitoring the thermal degradation of oils using front-face fluorescence spectroscopy［J］. Chemometrics and Intelligent Laboratory Systems, 2011,106(2):166-172.
［11］Tena N, Aparicio R, García-González D L. Chemical changes of thermoxidized virgin olive oil determined by excitation–emissionfluorescence spectroscopy (EEFS)［J］. Food Research International, 2012,45(1):103-108.