FTIR Spectroscopy Combined with Partial Least Square for Analysis of Red Fruit Oil in Ternary Mixture System

A. Rohman, D. L. Setyaningrum, S. Riyanto
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引用次数: 24

Abstract

FTIR spectroscopy is a promising method for quantification of edible oils. Three edible oils, namely, red fruit oil (RFO), corn oil (CO), and soybean oil (SO), in ternary mixture system were quantitatively analyzed using FTIR spectroscopy in combination with partial least square (PLS). FTIR spectra of edible oils in ternary mixture were subjected to several treatments including normal spectra and their derivative. Using PLS calibration, the first derivative FTIR spectra can be exploited for determination of RFO; meanwhile, the second derivative spectra were preferred for determination of CO and SO. The values obtained for the relationship between actual and FTIR predicted values of RFO, CO, and SO were 0.9863, 0.9276, and 0.9693, respectively. The root mean square error of calibration (RMSEC) values obtained were 1.59, 1.72, and 1.60% (v/v) for RFO, CO, and SO, respectively. The result showed that FTIR spectroscopy offers accurate and reliable technique for quantitative analysis of RFO, CO, and SO simultaneously in ternary mixture systems. Besides, the developed method can be extended for analysis of CO and SO as adulterants in RFO.
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FTIR光谱结合偏最小二乘法分析三元混合体系中的红果油
FTIR光谱法是一种很有前途的食用油定量方法。采用偏最小二乘法(PLS)对三元混合体系中的红果油(RFO)、玉米油(CO)和大豆油(SO) 3种食用油进行了定量分析。对三元混合物中食用油的红外光谱进行了常规光谱及其衍生物的处理。利用PLS校准,一阶导数FTIR光谱可用于RFO的测定;同时,二阶导数光谱更适合于CO和SO的测定。RFO、CO、SO的实际预测值与FTIR预测值的关系分别为0.9863、0.9276、0.9693。RFO、CO和SO的校准均方根误差(RMSEC)值分别为1.59、1.72和1.60% (v/v)。结果表明,FTIR光谱技术为同时定量分析三元混合体系中的RFO、CO和SO提供了准确可靠的技术。此外,所建立的方法也可推广应用于RFO中CO和SO的掺假分析。
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