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混合增塑剂提高基于电化学传感器检测镉的特异性和灵敏度。

Hybrid Plasticizers Enhance Specificity and Sensitivity of an Electrochemical-Based Sensor for Cadmium Detection.

机构信息

Program on Environmental Toxicology, Chulabhorn Graduate Institute, Chulabhorn Royal Academy, Bangkok 10210, Thailand.

Thai Microelectronics Center, National Science and Technology Development Agency (NSTDA), Chachoengsao 24000, Thailand.

出版信息

Int J Mol Sci. 2022 Jun 8;23(12):6402. doi: 10.3390/ijms23126402.

DOI:10.3390/ijms23126402
PMID:35742849
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9223680/
Abstract

In addition to their use as an additive to improve physical properties of solvent polymeric membranes, plasticizers have a considerable impact on the specificity and sensitivity of membrane-modified electrochemical sensors. In this work, we aim at the hybridization of two different plasticizers using the electropolymerization technique in the development of a cadmium(II)-selective electrochemical sensor based on screen-printed gold electrode along with cyclic voltammetric measurement. At this point, we first screen for the primary plasticizer yielding the highest signal using cyclic voltammetry followed by pairing it with the secondary plasticizers giving rise to the most sensitive current response. The results show that the hybridization of DOS and TOTM with 3:1 weight ratio (~137.7-μm-thick membrane) renders a signal that is >26% higher than that from the sensor plasticized by DOS per se in water. The solution of 0.1 mM hydrochloric acid (pH 4) is the optimal supporting electrolyte. In addition, hybrid plasticizers have adequate redox capacity to induce cadmium(II) transfer from bulk solution to the membrane/water interfaces. Conversion of voltammetric signals to semi-integral currents results in linearity with cadmium(II) concentration, indicating the irreversible cadmium(II) transfer to the membrane. The DOS:TOTM hybrid sensor also exhibits high sensitivity, with a limit of detection (LOD) and limit of quantitation (LOQ) of 95 ppb and 288 ppb, respectively, as well as greater specificity towards cadmium(II) than that obtained from the single plasticizer sensor. Furthermore, recovery rates of spiked cadmium(II) in water samples were higher than 97% using the hybrid plasticizer sensor. Unprecedentedly, our work reports that the hybridization of plasticizers serves as ion-to-electron transducer that can improve the sensor performance in cadmium(II) detection.

摘要

除了用作添加剂以改善溶剂聚合物膜的物理性质外,增塑剂对膜修饰电化学传感器的特异性和灵敏度也有很大的影响。在这项工作中,我们旨在使用电聚合技术将两种不同的增塑剂进行杂交,以开发基于丝网印刷金电极的镉(II)选择性电化学传感器,并结合循环伏安法测量。在这一点上,我们首先使用循环伏安法筛选出产生最高信号的主要增塑剂,然后将其与产生最敏感电流响应的次要增塑剂配对。结果表明,DOS 和 TOTM 的杂交(重量比为 3:1,~137.7-μm 厚的膜)产生的信号比单独使用 DOS 增塑的传感器在水中高 26%以上。0.1 mM 盐酸(pH 4)溶液是最佳的支持电解质。此外,混合增塑剂具有足够的氧化还原能力,可以诱导镉(II)从主体溶液转移到膜/水界面。将伏安信号转换为半积分电流会导致与镉(II)浓度呈线性关系,表明镉(II)不可逆地转移到膜中。DOS:TOTM 混合传感器还表现出高灵敏度,其检测限(LOD)和定量限(LOQ)分别为 95 ppb 和 288 ppb,并且对镉(II)的特异性高于单一增塑剂传感器。此外,使用混合增塑剂传感器,在水样中添加的镉(II)的回收率高于 97%。前所未有地,我们的工作表明,增塑剂的杂交可以作为离子-电子转换器,改善镉(II)检测中的传感器性能。

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