Iron oxide nanozymes as versatile analytical tools: an overview of their application as detection technique.

IF 1.9 4区医学 Q3 BIOCHEMICAL RESEARCH METHODS

Bioanalysis Pub Date : 2024-11-26 DOI:10.1080/17576180.2024.2415779

Rana Said, Asma Ghazzy, Ashok K Shakya, Afnan Al Hunaiti

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引用次数: 0

Abstract

Iron oxide nanozymes (IONzymes) have become fundamental components in various analyte detection methodologies such as colorimetric, electrochemistry, fluorescence and luminescence. Their tunability, stability and the possibility of modification, alongside their ability to mimic the catalytic properties of natural enzymes like peroxidase, render them invaluable in analytical chemistry. This review explores the diverse applications of IONzymes across analytical chemistry, with a particular highlighting on their roles in different detection techniques and their potential in biomedical and diagnostic applications. This information would be valuable for researchers and practitioners in the fields of analytical chemistry, biochemistry, biotechnology and materials science who are interested in applying IONzymes in their work. In essence, this review article on iron oxide nanozymes in analytical chemistry would serve as a valuable resource for researchers, educators and industry professionals, offering insights, guidance and inspiration for further study and application of this promising class of nanomaterials.

查看原文本刊更多论文

作为多功能分析工具的氧化铁纳米酶：作为检测技术的应用概述。

氧化铁纳米酶（IONzymes）已成为比色、电化学、荧光和发光等各种分析检测方法的基本组成部分。它们的可调性、稳定性和可修饰性，以及模仿过氧化物酶等天然酶催化特性的能力，使它们在分析化学中具有极高的价值。这篇综述探讨了离子酶在分析化学中的各种应用，特别强调了它们在不同检测技术中的作用以及在生物医学和诊断应用中的潜力。这些信息对于分析化学、生物化学、生物技术和材料科学领域中有意在工作中应用离子酶的研究人员和从业人员非常有价值。从本质上讲，这篇关于分析化学中的氧化铁纳米酶的综述文章将成为研究人员、教育工作者和行业专业人士的宝贵资源，为进一步研究和应用这类前景广阔的纳米材料提供见解、指导和启发。

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

Bioanalysis BIOCHEMICAL RESEARCH METHODS-CHEMISTRY, ANALYTICAL

CiteScore

3.30

自引率

16.70%

发文量

审稿时长

2 months

期刊介绍： Reliable data obtained from selective, sensitive and reproducible analysis of xenobiotics and biotics in biological samples is a fundamental and crucial part of every successful drug development program. The same principles can also apply to many other areas of research such as forensic science, toxicology and sports doping testing. The bioanalytical field incorporates sophisticated techniques linking sample preparation and advanced separations with MS and NMR detection systems, automation and robotics. Standards set by regulatory bodies regarding method development and validation increasingly define the boundaries between speed and quality. Bioanalysis is a progressive discipline for which the future holds many exciting opportunities to further reduce sample volumes, analysis cost and environmental impact, as well as to improve sensitivity, specificity, accuracy, efficiency, assay throughput, data quality, data handling and processing. The journal Bioanalysis focuses on the techniques and methods used for the detection or quantitative study of analytes in human or animal biological samples. Bioanalysis encourages the submission of articles describing forward-looking applications, including biosensors, microfluidics, miniaturized analytical devices, and new hyphenated and multi-dimensional techniques. Bioanalysis delivers essential information in concise, at-a-glance article formats. Key advances in the field are reported and analyzed by international experts, providing an authoritative but accessible forum for the modern bioanalyst.