新型氟离子选择性电极的研制——用 FeO 纳米粒子修饰

Development of the New Fluoride Ion-Selective Electrode Modified with FeO Nanoparticles.

机构信息

Department of Environmental Chemistry, Faculty of Chemistry and Technology, R. Boškovića 35, 21000 Split, Croatia.

Department of Chemistry and Biochemistry, Faculty of Chemistry and Chemical Technology, Večna pot 113, 1000 Ljubljana, Slovenia.

出版信息

Molecules. 2020 Nov 9;25(21):5213. doi: 10.3390/molecules25215213.

DOI:10.3390/molecules25215213

PMID:33182383

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7664936/

Abstract

A new modified ion-selective electrode with membranes of LaF single crystals with different internal contacts (solid steel or electrolyte) and with FeO nanoparticles as loading was developed. The best response characteristic with linear potential change was found in the fluoride concentration range from 10 to 3.98 × 10 M. The detection limit for the electrolyte contact was determined at 7.41 × 10 M with a regression coefficient of 0.9932, while the regression coefficient for the solid contact was 0.9969. The potential change per concentration decade ranged from 50.3 to 62.4 mV, depending on whether the contact was solid or electrolytic. The prepared modified electrode has a long lifetime, as well as the possibility of application in different positions (solid contact), and it can also be used for the determination of iron ions. The electrode characterization was performed with scanning electron microscopy and elemental analysis with the technique of electron-dispersive X-ray spectroscopy.

摘要

研制了一种新型的离子选择性电极，其膜由具有不同内部接触（固态钢或电解质）的 LaF 单晶和 FeO 纳米颗粒组成。在 10 到 3.98×10^-5 M 的氟化物浓度范围内，发现电极具有最佳的线性电位变化响应特性。对于电解质接触，检测限为 7.41×10^-6 M，回归系数为 0.9932，而对于固态接触，回归系数为 0.9969。每个浓度十年的电位变化范围为 50.3 至 62.4 mV，具体取决于接触是固态还是电解质。制备的修饰电极具有长的使用寿命，以及在不同位置（固态接触）应用的可能性，也可用于铁离子的测定。电极的特性通过扫描电子显微镜和电子分散 X 射线能谱技术的元素分析进行了表征。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/12ee/7664936/7c0e5992fd2d/molecules-25-05213-g001.jpg

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新型氟离子选择性电极的研制——用 FeO 纳米粒子修饰

Development of the New Fluoride Ion-Selective Electrode Modified with FeO Nanoparticles.

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