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基于功能化赤铁矿微立方体的光电化学酶生物传感器用于通过方波伏安法测定芦丁。

A photoelectrochemical enzyme biosensor based on functionalized hematite microcubes for rutin determination by square-wave voltammetry.

机构信息

Departamento de Química, Laboratório de Eletroanalítica e Sensores, Universidade Estadual de Londrina, Centro de Ciências Exatas, Rodovia Celso Garcia Cid, PR 445, Km 380, Cx.P. 10.011, Londrina, PR, CEP: 86057-970, Brazil.

Departamento de Química Fundamental, Universidade de São Paulo, Instituto de Química, São Paulo, SP, CEP: 05508-000, Brazil.

出版信息

Mikrochim Acta. 2021 Jan 6;188(1):28. doi: 10.1007/s00604-020-04659-z.

DOI:10.1007/s00604-020-04659-z
PMID:33404780
Abstract

A photoelectrochemical biosensing strategy for the highly sensitive detection of the flavonoid rutin was developed by synergizing the photoelectrocatalytic properties of hematite (α-FeO) decorated with palladium nanoparticles (PdNPs) and the biocatalysis towards laccase-based reactions. The integration of α-FeO.PdNPs with a polyphenol oxidase as a biorecognition element yields a novel biosensing platform. Under visible light irradiation, the photoactive biocomposite can generate a stable photocurrent, which was found to be directly dependent upon the concentration of rutin. Under the optimal experimental conditions, the cathodic photocurrent, measured at 0.33 V vs. Ag/AgCl, from the square-wave voltammograms presented a linear dependence on the rutin concentration within the range of 0.008-30.0 × 10 mol L (sensitivity: 1.7 μA·(× 10 M)·cm), with an experimental detection limit (S/N = 3) of 8.4 × 10 mol L. The proposed biosensor device presented good selectivity towards rutin in the presence of various organic compounds and inorganic ions, demonstrating the potential application of this biosensing platform in complex matrices. This bioanalytical device also exhibited excellent operational and analytical properties, such as intra-day (standard deviation, SD = 0.21%) and inter-day (SD = 1.30%) repeatability, and long storage stability (SD = 2.80% over 30 days).Graphical abstract.

摘要

一种光电化学生物传感策略,通过协同具有钯纳米粒子(PdNPs)修饰的赤铁矿(α-FeO)的光电催化性质和对漆酶基反应的生物催化作用,用于高度灵敏地检测类黄酮芦丁。将α-FeO.PdNPs 与多酚氧化酶集成作为生物识别元件,产生了一种新型生物传感平台。在可见光照射下,光活性生物复合材料可以产生稳定的光电流,发现其直接依赖于芦丁的浓度。在最佳实验条件下,从方波伏安图测量的 0.33 V 对 Ag/AgCl 的阴极光电流,在 0.008-30.0 × 10 范围内,与芦丁浓度呈线性关系 mol L(灵敏度:1.7 μA·(× 10 M)·cm),实验检测限(S/N = 3)为 8.4 × 10 mol L。该生物传感器在存在各种有机化合物和无机离子的情况下对芦丁表现出良好的选择性,证明了该生物传感平台在复杂基质中的潜在应用。该生物分析装置还表现出良好的操作和分析性能,例如日内(标准偏差,SD = 0.21%)和日间(SD = 1.30%)重复性,以及长期存储稳定性(30 天内 SD = 2.80%)。

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