Conductive vial electromembrane extraction – Principles and practical operation

IF 3 Q2 CHEMISTRY, ANALYTICAL Analytical science advances Pub Date : 2023-07-21 DOI:10.1002/ansa.202200065

Maria Schüller, Frederik André Hansen, Tonje Gottenberg Skaalvik, Stig Pedersen-Bjergaard

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Abstract

Electromembrane extraction (EME) is a microextraction technique where charged analytes are extracted from an aqueous sample solution, through a liquid membrane, and into an aqueous acceptor, under the influence of an external electric field. The liquid membrane is a few microliters of organic solvent immobilized in a polymeric support membrane. EME is a green technique and provides high selectivity. The selectivity is controlled by the direction and magnitude of the electric field, the chemical composition of the liquid membrane and the pH. Recently, commercial prototype equipment for EME was launched based on the use of conductive vials, and interest in EME is expected to increase. The current article is a tutorial and discusses the principle and practical work with EME. The practical information is related to the commercial prototype equipment but is valid also for other technical configurations of EME. The tutorial is intended to give readers a fundamental understanding of EME, which is required for method development and operation, and for avoiding common pitfalls.

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导电小瓶电膜萃取原理和实际操作

电膜萃取(EME)是一种微萃取技术，在外电场的作用下，将带电荷的分析物从含水样品溶液中通过液膜萃取到含水受体中。液体膜是将几微升有机溶剂固定在聚合物支撑膜上。EME是一种绿色技术，具有高选择性。选择性由电场的方向和大小、液膜的化学成分和ph控制。最近，基于导电小瓶的电磁辐射商用原型设备已经推出，预计对电磁辐射的兴趣将会增加。本文是一篇教程，讨论了EME的原理和实际工作。实用信息与商业原型设备有关，但也适用于EME的其他技术配置。本教程旨在让读者对EME有一个基本的了解，这是方法开发和操作以及避免常见陷阱所必需的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Analytical science advances

CiteScore

4.60

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0.00%

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