Ion-Selective Electrodes in the Food Industry: Development Trends in the Potentiometric Determination of Ionic Pollutants

Antonio Ruiz-Gonzalez
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Abstract

Food quality assessment is becoming a global priority due to population growth and the rise of ionic pollutants derived from anthropogenic sources. However, the current methods used to quantify toxic ions are expensive and their operation is complex. Consequently, there is a need for affordable and accessible methods for the accurate determination of ion concentrations in food. Electrochemical sensors based on potentiometry represent a promising approach in this field, with the potential to overcome limitations of the currently available systems. This review summarizes the current advances in the electrochemical quantification of heavy metals and toxic anions in the food industry using potentiometric sensors. The healthcare impact of common heavy metal contaminants (Cd2+, Hg2+, Pb2+, As3+) and anions (ClO4−, F−, HPO4−, SO42−, NO3−, NO2−) is discussed, alongside current regulations, and gold standard methods for analysis. Sensor performances are compared to current benchmarks in terms of selectivity and the limit of detection. Given the complexity of food samples, the percentage recovery values (%) and the methodologies employed for ion extraction are also described. Finally, a summary of the challenges and future directions of the field is provided. An overview of technologies that can overcome the limitations of current electrochemical sensors is shown, including new extraction methods for ions in food.
食品工业中的离子选择电极:离子污染物电位测定的发展趋势
由于人口增长和人为来源的离子污染物增加,食品质量评估正成为全球优先事项。然而,目前用于量化有毒离子的方法价格昂贵,操作复杂。因此,需要一种经济实惠、易于使用的方法来准确测定食品中的离子浓度。基于电位测定法的电化学传感器是这一领域中一种很有前景的方法,有可能克服现有系统的局限性。本综述总结了目前使用电位计传感器对食品工业中的重金属和有毒阴离子进行电化学定量的进展。讨论了常见重金属污染物(Cd2+、Hg2+、Pb2+、As3+)和阴离子(ClO4-、F-、HPO4-、SO42-、NO3-、NO2-)对健康的影响,以及当前的法规和黄金标准分析方法。在选择性和检测限方面,将传感器的性能与当前的基准进行了比较。鉴于食品样品的复杂性,还介绍了回收率(%)和离子提取方法。最后,总结了该领域面临的挑战和未来的发展方向。概述了可以克服当前电化学传感器局限性的技术,包括食品中离子的新提取方法。
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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CiteScore
6.30
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