Archive/Quantitative Screening of Sodium Salt Azo Dyes in Paprika Powder by Handheld Laser-Induced Breakdown Spectroscopy
Quantitative Screening of Sodium Salt Azo Dyes in Paprika Powder by Handheld Laser-Induced Breakdown Spectroscopy
Justyna Grabska, Krzysztof B. Bec, Vanessa Moll et al.
July 14, 2026
en

Abstract

Synthetic azo dyes may be fraudulently added to paprika powder to intensify color, creating a need for rapid, at-line screening before confirmatory chromatographic analysis. This study evaluated handheld laser-induced breakdown spectroscopy (LIBS) for the screening of sodium-salt azo dye adulteration represented by Allura Red (E129), Ponceau 4R (E124), and Orange II in paprika powder. Paprika was spiked at 17 levels (0–6% w/w) in three independent batches, mixed with Al2O3 binder, dried, pelletized, and measured with a portable SciAps Z-903 under argon in the broad 190–950 nm region. The calibration models were developed using SNV-pretreated spectra and partial least squares regression with test-set validation based on a 70/30 split by concentration level. The main concentration-related response was increased Na emission, consistent with the sodium-salt form of the dyes, while Al emission showed an inverse matrix-/plasma-coupled trend despite the constant binder fraction. Full-spectrum models gave R2TSV values of 0.845–0.875 and RMSETSV values of 0.638–0.716% (w/w), using 4–5 latent variables. Outlier trimming improved prediction for Allura Red and Orange II, while regression coefficient-uncertainty variable selection reduced model complexity to 2–3 latent variables with dye-dependent effects. Since sodium-salt azo dyes are commonly used as adulterants in paprika powder, the Na-dominated LIBS response demonstrates good potential for rapid at-line screening. Nevertheless, as LIBS does not directly confirm dye identity, complementary confirmatory analysis using spectroscopic or chromatographic methods remains necessary.

Keywords

quantitativescreeningsodiumsaltdyespaprikapowderhandheldlaser-inducedbreakdownspectroscopyanalyticasyntheticfraudulentlyaddedintensifycolorcreatingneedrapidat-linebeforeconfirmatorychromatographic
Reference this publication

€ 4.00