氧化酶模拟纳米酶:分类、催化机制和传感应用

IF 20.3 1区 化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR
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引用次数: 0

摘要

纳米酶是一种模拟天然酶的纳米材料,具有生物催化功能。氧化酶是一种氧化还原酶,可在分子氧存在下氧化氢供体底物。最近,关于各种纳米材料具有氧化酶模拟活性的报道层出不穷,氧化酶已成为目前研究最为广泛、应用最为广泛的酶特性之一。考虑到氧化酶模拟物的重大进展和优越前景,本综述将根据氧化酶模拟纳米材料的底物对其进行分类,并简要介绍其合成方法。此外,还系统、全面地概述和讨论了它们的传感应用以及可能的催化机理。最后,展望了未来探索氧化酶模拟物在传感或分析化学中应用的可能机遇和挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Oxidase mimicking nanozyme: Classification, catalytic mechanisms and sensing applications

Oxidase mimicking nanozyme: Classification, catalytic mechanisms and sensing applications

Nanozymes are a type of nanomaterials that mimics natural enzymes with biocatalytic functions. Oxidase is a kind of oxidoreductase which oxidizes hydrogen donor substrates in the presence of molecular oxygen. Recently, there have been many reports on various nanomaterials exhibiting oxidase-mimicking activity, which currently became one of the most extensively studied enzymatic property with broad applications. Considering the significant advances and superior prospects of oxidase mimics, this review categorizes oxidase mimicking nanozymes based on their substrates and brief introduction of their syntheses. Further their sensing applications along with the possible catalytic mechanisms are systematically and comprehensively overviewed and discussed. Eventually, the possible opportunities and challenges in the future to explore oxidase mimics for applications in sensing or analytical chemistry are prospected.

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来源期刊
Coordination Chemistry Reviews
Coordination Chemistry Reviews 化学-无机化学与核化学
CiteScore
34.30
自引率
5.30%
发文量
457
审稿时长
54 days
期刊介绍: Coordination Chemistry Reviews offers rapid publication of review articles on current and significant topics in coordination chemistry, encompassing organometallic, supramolecular, theoretical, and bioinorganic chemistry. It also covers catalysis, materials chemistry, and metal-organic frameworks from a coordination chemistry perspective. Reviews summarize recent developments or discuss specific techniques, welcoming contributions from both established and emerging researchers. The journal releases special issues on timely subjects, including those featuring contributions from specific regions or conferences. Occasional full-length book articles are also featured. Additionally, special volumes cover annual reviews of main group chemistry, transition metal group chemistry, and organometallic chemistry. These comprehensive reviews are vital resources for those engaged in coordination chemistry, further establishing Coordination Chemistry Reviews as a hub for insightful surveys in inorganic and physical inorganic chemistry.
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