用于二硝基甲苯电化学研究与分析的铅笔和金电极材料

Pencil and Gold Electrode Materials for the Electrochemical Study and Analysis of Dinitrotoluene.

作者信息

Kurian Kevin J, De Maere Julie, Schazmann Benjamin

机构信息

Applied Electrochemistry Group (AEG), FOCAS Research Institute - Technological University Dublin, Aungier Street, Dublin 8, Ireland.

Odisee University of Applied Sciences, Technology Campus Ghent, Gebroeders de Smetstraat 1, 9000 Gent, Belgium.

出版信息

ACS Omega. 2024 Feb 12;9(8):9375-9382. doi: 10.1021/acsomega.3c08741. eCollection 2024 Feb 27.

DOI:10.1021/acsomega.3c08741

PMID:38434862

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10905693/

Abstract

The aim of our work was to investigate practical and robust methods for the electrochemical analysis of DNT. Using gold WEs, we differentiated between the nitro substituents in 2,4- and 2,6-DNT in organic electrolyte systems. Switching to an aqueous electrolyte (2 M HSO), a limit of detection (LOD) of 0.158 ppm (0.87 μM) and a limit of quantitation (LOQ) of 0.48 ppm (2.64 μM) were observed for 2,4-DNT. Subsequent simplification to wooden craft pencils as WEs in aqueous 2 M HSO electrolyte achieved a LOD of 4.8 ppm (26.48 μM) and a LOQ of 14.6 ppm (80.54 μM) for 2,4-DNT. Alongside this easily renewable WE choice, 2 M HSO was found to improve the solubility of DNT in aqueous media and has not been previously reported as an electrolyte in DNT electroanalysis. On testing a range of pencil grades from 4H to 8B, it was found that 4B gave the best sensitivity. The work serves as a preliminary study into materials that, through their simplicity and availability, may be suitable for the development of a robust and portable instrumental method through the electrochemical work presented here.

摘要

我们工作的目的是研究用于DNT电化学分析的实用且稳健的方法。使用金工作电极，我们在有机电解质体系中区分了2,4 - DNT和2,6 - DNT中的硝基取代基。切换到水性电解质（2 M HSO）时，观察到2,4 - DNT的检测限（LOD）为0.158 ppm（0.87 μM），定量限（LOQ）为0.48 ppm（2.64 μM）。随后在2 M HSO水性电解质中简化为使用木制工艺铅笔作为工作电极，2,4 - DNT的LOD为4.8 ppm（26.48 μM），LOQ为14.6 ppm（80.54 μM）。除了这种易于更新的工作电极选择外，还发现2 M HSO可提高DNT在水性介质中的溶解度，并且此前尚未有将其作为DNT电分析中的电解质的报道。在测试从4H到8B的一系列铅笔等级时，发现4B的灵敏度最佳。这项工作是对一些材料的初步研究，这些材料因其简单性和可用性，通过本文介绍的电化学方法，可能适用于开发一种稳健且便携的仪器方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bade/10905693/05a17ec01914/ao3c08741_0001.jpg

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用于二硝基甲苯电化学研究与分析的铅笔和金电极材料

Pencil and Gold Electrode Materials for the Electrochemical Study and Analysis of Dinitrotoluene.

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