构建含TX-100的高发射性席夫碱纳米胶束用于监测实际样品中暗藏的诱惑红和苦味酸含量。

Construction of highly emissive Schiff base containing TX- 100 nanomicelles for monitoring the levels of devil in disguise Allura red and picric acid in real samples.

作者信息

Jain Nisha, Kaur Navneet

机构信息

Department of Chemistry, Panjab University, Chandigarh, 160014, India.

出版信息

Mikrochim Acta. 2025 Apr 21;192(5):312. doi: 10.1007/s00604-025-07166-1.

DOI:10.1007/s00604-025-07166-1

PMID:40259147

Abstract

A sulfonamide derivative synthesized from 1,8-naphthalimide-based amine and 4-methoxy-benzenesulfonyl chloride has been enwrapped into the micelles of a neutral surfactant TX-100 to form highly emissive nanomicelles MXL@TX- 100. The proposed sensor offered highly sensitive turn-off detection of Allura red (linear range = 0.66-224 µM) with the limit of detection (LOD) of 0.2 µM (R = 0.999) due to fluorescence resonance energy transfer from MXL@TX- 100 to Allura red. To the best of our knowledge, no organic compound-based sensor has been reported for the determination of Allura red so far. Additionally, nanomicelles MXL@TX- 100 were utilized for the sensing of picric acid (LOD = 0.92 µM, R = 0.998) in the linear range 3.03-928 µM. The binding constant between MXL@TX- 100-Allura red and MXL@TX- 100-picric were calculated to be 1.45 × 10 M and 1.97 × 10 M, respectively. Moreover, nanomicelles MXL@TX- 100 conveniently detected Allura red in real samples, viz. candy, soft drink, gulkand, and pharmaceutical syrup.

摘要

一种由基于1,8-萘二甲酰亚胺的胺与4-甲氧基苯磺酰氯合成的磺酰胺衍生物被包裹在中性表面活性剂TX-100的胶束中，形成了高发射性的纳米胶束MXL@TX-100。由于荧光共振能量从MXL@TX-100转移到诱惑红，所提出的传感器对诱惑红提供了高灵敏度的猝灭检测（线性范围=0.66-224µM），检测限（LOD）为0.2µM（R=0.999）。据我们所知，迄今为止尚未有基于有机化合物的传感器用于测定诱惑红的报道。此外，纳米胶束MXL@TX-100用于检测苦味酸（LOD=0.92µM，R=0.998），线性范围为3.03-928µM。计算得出MXL@TX-100-诱惑红和MXL@TX-100-苦味酸之间的结合常数分别为1.45×10 M和1.97×10 M。此外，纳米胶束MXL@TX-100能够方便地检测实际样品中的诱惑红，即糖果、软饮料、玫瑰酱和药用糖浆。

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构建含TX-100的高发射性席夫碱纳米胶束用于监测实际样品中暗藏的诱惑红和苦味酸含量。

Construction of highly emissive Schiff base containing TX- 100 nanomicelles for monitoring the levels of devil in disguise Allura red and picric acid in real samples.

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