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A novel AgNPs/MOF substrate-based SERS sensor for high-sensitive on-site detection of wheat gluten

Linglin Fu, Yanzhuo Du, Jinru Zhou, Huan Li, Minzi Wang, Yanbo Wang

2023Food Science and Human Wellness25 citationsDOIOpen Access PDF

Abstract

Gluten, known as the major allergen in wheat, has gained increasing concerns in industrialized countries, resulting in an urgent need for accurate, high-sensitive, and on-site detection of wheat gluten in complex food systems. Herein, we proposed an AgNPs/MOF substrate-based surface-enhanced Raman scattering (SERS) sensor for the high-sensitive on-site detection of wheat gluten. The detection occurred on the newly in-situ synthesized AgNPs/MOF-modified SERS substrate, providing an enhancement factor (EF) of 1.89×10<sup>5</sup>. Benefitting from the signal amplification function of AgNPs/MOF and the superiority of SERS, this sensor represented high sensitivity performance and a wide detection range from 1×10<sup>-15</sup> to 2×10<sup>-6</sup> M with a detection limit of 1.16×10<sup>-16</sup> M, which allowed monitoring the trace of wheat gluten in complex food system without matrix interference. This reliable sandwich SERS sensor may provide a promising platform for high-sensitive, accurate, and on-site detection of allergens in the field of food safety.

Topics & Concepts

Detection limitSubstrate (aquarium)Raman scatteringMaterials scienceChemistryNanotechnologyRaman spectroscopyChromatographyOpticsPhysicsOceanographyGeologyFood Allergy and Anaphylaxis ResearchAllergic Rhinitis and SensitizationGold and Silver Nanoparticles Synthesis and Applications
A novel AgNPs/MOF substrate-based SERS sensor for high-sensitive on-site detection of wheat gluten | Litcius