净分析物信号标准加入法测定两种合成食用色素的铋和铋-壳聚糖修饰电极

K. Asadpour‐Zeynali, Fariba Mollarasouli
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引用次数: 21

摘要

研究了铋膜修饰玻碳电极在偶氮着色剂测定中的电化学应用。通过在玻碳电极上非原位沉积铋,制备了铋膜电极(BiFE)。在0.15 mg mL−1 Bi(III)和0.05 mg mL−1 KBr溶液中,电镀电位为−0.78 V (vs. SCE),电镀时间为180 s。下一步,在铋修饰的玻璃碳电极表面沉积一层壳聚糖薄膜,从而制备铋-壳聚糖薄膜修饰的玻璃碳电极(Bi-CHIT/GCE),并与裸GCE和铋修饰的GCE进行比较。偶氮着色剂如日落黄和卡莫辛在这些电极上用差分脉冲伏安法测定。由于Sunset Yellow和Carmoisine的峰重叠,无法同时测定,故采用净分析物信号标准加法法(NASSAM)进行测定。结果表明,包覆壳聚糖可以提高铋膜的灵敏度,提高机械稳定性,且不会对表面电极造成污染。Bi-CHIT/GC电极对日落黄和Carmoisine在5×10−6 ~ 2.38×10−4 M和1×10−6 ~ 0.41×10−4 M浓度范围内呈线性关系,检出限分别为10µM(4.52µg mL−1)和10µM(5.47µg mL−1)
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bismuth and Bismuth-Chitosan modified electrodes for determination of two synthetic food colorants by net analyte signal standard addition method
In this paper, an electrochemical application of bismuth film modified glassy carbon electrode for azo-colorants determination was investigated. Bismuth-film electrode (BiFE) was prepared by ex-situ depositing of bismuth onto glassy carbon electrode. The plating potential was −0.78 V (vs. SCE) in a solution of 0.15 mg mL−1 Bi(III) and 0.05 mg mL−1 KBr for 180 s. In the next step, a thin film of chitosan was deposited on the surface of bismuth modified glassy carbon electrode, thus the bismuth-chitosan thin film modified glassy carbon electrode (Bi-CHIT/GCE) was fabricated and compared with bare GCE and bismuth modified GCE.Azo-colorants such as Sunset Yellow and Carmoisine were determined on these electrodes by differential pulse voltammetry. Due to overlapping peaks of Sunset Yellow and Carmoisine, simultaneous determination of them is not possible, so net analyte signal standard addition method (NASSAM) was used for this determination. The results showed that coated chitosan can enhance the bismuth film sensitivity, improve the mechanical stability without caused contamination of surface electrode. The Bi-CHIT/GC electrode behaved linearly to Sunset Yellow and Carmoisine in the concentration range of 5×10−6 to 2.38×10−4 M and 1×10−6 to 0.41×10−4 M with a detection limit of 10 µM (4.52 µg mL−1) and 10 µM (5.47 µg mL−1), respectively
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