Recent Advances in the Electro-Active Therapeutic Phytochemical-Based Sensors

Electrochem Pub Date : 2022-10-08 DOI:10.3390/electrochem3040041

Mansi Gandhi, K. Amreen, B. Tiwari

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引用次数: 1

Abstract

Naturally occurring phytonutrients/phyto-components are likely to have therapeutic values. These phyto-derived naturally occurring components, such as polyphenols, phenolics, flavonoids and phenolic acids have a hydrocarbon background with a polyphenolic ring, an ester bond with a polyphenolic ring, etc. Their structures play a critical role in determining the chemical and physical attributes that define their activity/functions and roles. Owing to their chemical structure, most of them are electroactive. Thus, these phytochemicals can be used in the preparation of electrochemical sensors. Gaining an understanding of functional genotypical units using electrochemistry is a unique study. The feasibility of incorporating an array of biosensors into a fully-automated micro-electrochemical system is further explored. This review is intended to provide in-depth knowledge of biosensors’ applications based on/for Plantae kingdom and varieties. The discussion focuses primarily on the fields associated with the fully-automated micro-electrochemical system and appropriate methods for its advancement. The intended approach is to provide a selective outlook including the setbacks/shortcomings and usefulness of opting for the concerned technique.

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基于电活性治疗植物化学的传感器研究进展

天然存在的植物营养素/植物成分可能具有治疗价值。这些植物衍生的天然成分，如多酚、酚类、类黄酮和酚酸，具有带多酚环的碳氢化合物背景，带多酚环的酯键等。它们的结构在决定化学和物理属性方面起着至关重要的作用，这些属性决定了它们的活性/功能和作用。由于它们的化学结构，它们大多具有电活性。因此，这些植物化学物质可用于制备电化学传感器。利用电化学获得对功能基因型单位的理解是一项独特的研究。进一步探讨了将一系列生物传感器纳入全自动微电化学系统的可行性。本文综述了生物传感器在植物界和品种上的应用。讨论的重点是与全自动微电化学系统相关的领域和其发展的适当方法。目的是提供一个选择性的前景，包括选择有关技术的挫折/缺点和有用性。

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

Electrochem

CiteScore

6.30

自引率

0.00%

发文量