Electrochemical-Based Biosensor Platforms in Lab-Chip Models for Point-of-Need Toxicant Analysis

Mohana Marimuthu, Vinoth Krishnan, Shailendra Sudhakaran, Sevakumaran Vigneswari, Shanmugam Senthilkumar, M. Veerapandian
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引用次数: 0

Abstract

The global hazardous waste management market is expected to reach USD 987.51 million by 2027 at a CAGR of 14.48%. The early detection of corrosive, flammable, and infectious toxicants from natural sources or manmade contaminants from different environments is crucial to ensure the safety and security of the global living system. Even though the emergence of advanced science and technology continuously offers a more comfortable lifestyle, there are two sides of the coin in terms of opportunities and challenges, demanding solutions for greener applications and waste-to-wealth strategies. A modern analytical technique based on an electrochemical approach and microfluidics is one such emerging advanced solution for the early and effective detection of toxicants. This review attempts to highlight the different studies performed in the field of toxicant analysis, especially the fusion of electrochemistry and lab-chip model systems, promising for point-of-need analysis. The contents of this report are organised by classifying the types of toxicants and trends in electrochemical-integrated lab-chip assays that test for heavy-metal ions, food-borne pathogens, pesticides, physiological reactive oxygen/nitrogen species, and microbial metabolites. Future demands in toxicant analysis and possible suggestions in the field of microanalysis-mediated electrochemical (bio)sensing are summarised.
用于毒物定点分析的实验室芯片模型电化学生物传感器平台
全球危险废物管理市场预计到 2027 年将达到 9.8751 亿美元,年复合增长率为 14.48%。及早发现来自自然界的腐蚀性、易燃性和传染性有毒物质或来自不同环境的人为污染物,对于确保全球生命系统的安全和安保至关重要。尽管先进科学技术的不断涌现为人们提供了更加舒适的生活方式,但机遇和挑战也是硬币的两面,需要更环保的应用和变废为宝战略的解决方案。基于电化学方法和微流控技术的现代分析技术就是这样一种新兴的先进解决方案,可用于早期有效地检测有毒物质。本综述试图重点介绍在毒物分析领域开展的各种研究,特别是电化学与实验室芯片模型系统的融合,这对于需求点分析大有可为。本报告的内容按毒物类型和电化学集成实验室芯片检测法的发展趋势进行分类,这些检测法可检测重金属离子、食源性病原体、杀虫剂、生理活性氧/氮物种和微生物代谢物。总结了毒物分析的未来需求以及微分析介导的电化学(生物)传感领域的可能建议。
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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