Optical and Catalytic Properties of Nanozymes for Colorimetric Biosensors: Advantages, Limitations, and Perspectives

IF 8 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Advanced Optical Materials Pub Date : 2024-09-16 DOI:10.1002/adom.202401318
Vasily G. Panferov, Juewen Liu
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Abstract

Detection of colorimetric signals is commonly used in various analytical methods and for testing in non-laboratory and resource-limited settings. The performance of colorimetric assays is largely based on nanoparticles and their unique optical properties. Multifunctional nanoparticles combining optical and enzyme-like catalytic properties—known as nanozymes—hold great promise for analytical applications as signal-generating labels. However, the extensive focus on the catalytic properties leaves their unique optical properties overlooked. In this article, the use of the optical and catalytic properties of nanozymes is reviewed for analytical applications relying on the inherent optical properties of nanozymes, the colorimetric detection of a catalytically-formed product, and colorimetric changes of nanoparticles caused by the catalytically-formed product. The impact of the extinction coefficient of nanozymes and reaction products, as well as the kinetic parameters of nanozymes on the sensitivity and limit of detection of assays, are quantitatively evaluated. Finally, the existing limitations and prospects of nanozymes for colorimetric biosensors are summarized.

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用于比色生物传感器的纳米酶的光学和催化特性:优势、局限和前景
比色信号检测通常用于各种分析方法,以及在非实验室和资源有限的环境中进行检测。比色检测的性能主要基于纳米粒子及其独特的光学特性。结合了光学特性和类似酶催化特性的多功能纳米粒子(被称为纳米酶)作为信号生成标签,在分析应用中大有可为。然而,人们对催化特性的广泛关注使其独特的光学特性被忽视了。本文回顾了纳米酶的光学和催化特性在分析应用中的应用,这些应用依赖于纳米酶固有的光学特性、催化生成物的比色检测以及催化生成物引起的纳米颗粒的比色变化。定量评估了纳米酶和反应产物的消光系数以及纳米酶的动力学参数对检测灵敏度和检测限的影响。最后,总结了纳米酶用于比色生物传感器的现有局限性和前景。
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来源期刊
Advanced Optical Materials
Advanced Optical Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-OPTICS
CiteScore
13.70
自引率
6.70%
发文量
883
审稿时长
1.5 months
期刊介绍: Advanced Optical Materials, part of the esteemed Advanced portfolio, is a unique materials science journal concentrating on all facets of light-matter interactions. For over a decade, it has been the preferred optical materials journal for significant discoveries in photonics, plasmonics, metamaterials, and more. The Advanced portfolio from Wiley is a collection of globally respected, high-impact journals that disseminate the best science from established and emerging researchers, aiding them in fulfilling their mission and amplifying the reach of their scientific discoveries.
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