Non-destructive detection of heavy metals in vegetable oil based on nano-chemoselective response dye combined with near-infrared spectroscopy

•Heavy metals were determined in corn oil based on nano-chemo selective response dye combined with NIR spectroscopy.•Rapid detection of heavy metals in corn oil without pretreatment steps was achieved.•Porous silica nanospheres were synthesized to optimize dyes to prepare CSA for trace heavy metal d...

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Published in:Sensors and actuators. B, Chemical Chemical, 2021-05, Vol.335, p.129716, Article 129716
Main Authors: Lin, Hao, Jiang, Hao, He, Peihuan, Haruna, Suleiman A., Chen, Quansheng, Xue, Zhaoli, Chan, Chenming, Ali, Shujat
Format: Article
Language:English
Subjects:
Adaptive sampling
Ant colony optimization
Corn oil
Dyes
Genetic algorithms
Heavy metal
Heavy metals
Infrared spectra
Infrared spectroscopy
Ion probes
Lead
Least squares
Mercury (metal)
Multivariate analysis
Nano-chemoselective response dye
Nanospheres
Near infrared radiation
Near-infrared spectroscopy
Regression models
Silicon dioxide
Spectrum analysis
Vegetable oils
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Summary:•Heavy metals were determined in corn oil based on nano-chemo selective response dye combined with NIR spectroscopy.•Rapid detection of heavy metals in corn oil without pretreatment steps was achieved.•Porous silica nanospheres were synthesized to optimize dyes to prepare CSA for trace heavy metal detection.•The color sensitive dyes sensitive to heavy metals were acquired. Heavy metal concentrations are one of the major problems bedeviling the market and consumption of edible oil. This study attempts to use near-infrared spectroscopy (NIRS) combined with chemoselective responsive dyes, as capture probes for the quantification of lead (Pb) and mercury (Hg) heavy metals in oils. Olfactory visualization system was used to screen chemoselective responsive dyes. The synthesized porous silica nanospheres (PSNs) were used to further optimize the color sensor and applied based on selected dyes. The spectral data were preprocessed by standard normal variation (SNV), which follows the application of chemometrics like partial least squares (PLS), ant colony optimization-PLS (ACO-PLS), synergy interval partial least squares (SiPLS), genetic algorithm-PLS (GA-PLS), and competitive adaptive reweighted sampling-PLS (CARS-PLS) were applied to construct the regression model. ACO-PLS achieved optimum result, with the Rp2 value of 0.9612 in the linear range of 0.001 ∼ 100ppm, and LOD of ≤ 1ppb recorded. Verified by the National Standard Detection Method, the effectiveness of this strategy has proven to be satisfactorily accurate. Therefore, the developed method could be used for non-destructive detection of lead and mercury in edible oil.
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2021.129716