用于检测亮蓝食品掺假的硫化镓固定化光纤 SPR 传感器

IF 1.8 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Nasih Hma Salah;Baljinder Kaur;Hogr M. Rasul;Yesudasu Vasimalla;Chella Santhosh;Ramachandran Balaji;S. R. Srither;Santosh Kumar
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引用次数: 0

摘要

食品安全保障至关重要,尤其是在识别像亮蓝(BB)这样的违禁色素方面。表面等离子体共振(SPR)生物传感器为高灵敏度检测食品掺假物质提供了一种可靠的无标记方法。在这项研究中,我们提出了一种新型硫化镓(GaS)固定光纤 SPR 传感器,用于快速、实时检测 BB 合成染料。该传感器由带有无添加甲醛(NaF)包层的高双折射层(HBL)核心、作为质子金属的银(Ag)以及用于提高检测灵敏度的 GaS 组成。为了确定传感器的性能,在 400 纳米到 1000 纳米的波长范围内,测量了不同折射率(RI)下随波长变化的响应,以及灵敏度和优点系数(FOM)。这些参数是在由水和 BB 组成的传感介质(浓度范围为 10 mM 至 600 mM)中进行评估的。此外,还研究了电磁场在传感器多层结构上的分布,特别是在 Ag-GaS 和 GaS-analytes 之间的界面上。在 10 mM 的浓度下,基于 Ag-GaS 的优化传感器由 70 nm 的 Ag 层和 3 nm 的 GaS 层组成,入射角为 85°,最大灵敏度为 5119.6 nm/RIU,FOM 为 255.98 RIU-1。这些结果表明,该传感器可以非常灵敏、准确地检测食品中的非认可色素(如 BB)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Gallium Sulfide-Immobilized Optical Fiber-Based SPR Sensor for Detection of Brilliant Blue Food Adulteration
Food safety assurance is crucial, particularly in identifying prohibited colors like brilliant blue (BB) that may pose significant health risks when used in food products. Surface plasmon resonance (SPR) biosensors provide a reliable, label-free method for highly sensitive detection of food adulterants. In this study, we present a novel gallium sulfide (GaS)-immobilized optical fiber SPR sensor designed for the rapid, real-time detection of BB synthetic dye. The proposed sensor is comprised of a high birefringence layer (HBL) core with non-added formaldehyde (NaF) cladding, silver (Ag) as the plasmonic metal, and GaS for enhanced detection sensitivity. To determine the sensor performance, the wavelength-dependent response was measured at different refractive indices (RIs), together with sensitivity and figure of merit (FOM) over the wavelength range of 400 nm to 1000 nm. The parameters were evaluated in a sensing medium consisting of water and BB under concentrations ranging from 10 mM to 600 mM. Moreover, the distribution of electromagnetic fields across the multilayer structures of the sensor, particularly at the interfaces between Ag-GaS and GaS-analytes, was investigated. At a 10 mM concentration, the optimized Ag-GaS-based sensor, consisting of 70 nm Ag and 3 nm GaS layers at an incidence angle of 85°, achieves a maximum sensitivity of 5119.6 nm/RIU and FOM of 255.98 RIU -1 . The obtained results illustrate the sensor has the potential to detect non-approved colors like BB in food items with great sensitivity and accuracy.
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来源期刊
CiteScore
3.90
自引率
17.60%
发文量
10
审稿时长
12 weeks
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