Advances in oxidase-mimicking nanozymes: Classification, activity regulation and biomedical applications | Semantic Scholar (2024)

153 Citations

Research Progress in Iron-Based Nanozymes: Catalytic Mechanisms, Classification, and Biomedical Applications.
    Ruixue FuZijian Ma Daixin Ye

    Medicine, Materials Science

    Analytical chemistry

  • 2023

In this perspective, catalytic mechanisms, activity modulation, and their recent research progress in sensing, tumor therapy, and antibacterial and anti-inflammatory applications are systematically presented.

  • 29
Nanomaterials with Glucose Oxidase-Mimicking Activity for Biomedical Applications
    Sheng MinQiao Yu Yu Chong

    Materials Science, Medicine

    Molecules

  • 2023

This review systematically summarizes the representative GOD-mimicking nanomaterials for the first time and depicts their proposed catalytic mechanisms, and introduces the efficient modulation strategy to improve the catalytic activity of existing GOD-reinforced nanommaterials.

Enzyme-mimicking capacities of carbon-dots nanozymes: Properties, catalytic mechanism, and applications - A review.
    D. O. Lopez-CantuReyna Berenice González-González Hafiz M.N. Iqbal

    Materials Science, Chemistry

    International journal of biological…

  • 2021
  • 76
Nanozymes: A comprehensive review on emerging applications in cancer diagnosis and therapeutics.
    Akanksha DeshwalKirti Saxena Ravi Mani Tripathi

    Medicine, Materials Science

    International journal of biological…

  • 2023
  • 7
Recent Trends in Composite Nanozymes and Their Pro-Oxidative Role in Therapeutics
    Shilpa MaddheshiyaS. Nara

    Medicine, Engineering

    Frontiers in Bioengineering and Biotechnology

  • 2022

The present review traverses over the newer strategies to design composite nanoZymes as pro-oxidative therapeutics and provides recent trends in the use of composite nanozymes as antibacterial, antibiofilm, and antitumor agents.

Nanozymes: Classification and Analytical Applications - A Review.
    Kurdo A AbdullahTara F TahirA. F. QaderR. OmerK. Othman

    Chemistry, Materials Science

    Journal of fluorescence

  • 2024

This review delves into the distinctions between synthetic and natural enzymes, explaining their structures and analytical applications, and primarily focuses on carbon-based nanozymes, particularly those that contain both carbon and hydrogen, as well as metal-based nanozymes along with their metal oxide, which have applications in many fields today.

Multi-functional oxidase-like activity of praseodymia nanorods and nanoparticles
    Jiang LeiY. Han Xiaowei Chen

    Materials Science, Chemistry

    Applied Surface Science

  • 2022
  • 6
  • PDF
Carbon-based nanozymes: design, catalytic mechanisms, and environmental applications.
    Zheqi ZhuangYanni YuShipeng DongXiaolin SunLiang Mao

    Environmental Science, Chemistry

    Analytical and bioanalytical chemistry

  • 2024

Carbon-based nanozymes are synthetic nanomaterials that are predominantly constituted of carbon-based materials, which mimic the catalytic properties of natural enzymes, boasting features such as

  • 1
Transition-Metal-Based Nanozymes: Synthesis, Mechanisms of Therapeutic Action, and Applications in Cancer Treatment.
    Qinrui FuChuang WeiMengzhen Wang

    Medicine, Chemistry

    ACS nano

  • 2024

This review comprehensively outlines the preparation strategies involved in creating transition-metal-based nanozymes, and elaborates on the diverse applications of transition-metal-based nanozymes in anticancer therapies encompassing radiotherapy, chemodynamic therapy, photodynamic therapy, photothermal therapy, sonodynamic therapy, immunotherapy, and synergistic therapy.

  • 8
Nanozymes towards Personalized Diagnostics: A Recent Progress in Biosensing
    C. KurupM. Ahmed

    Medicine, Materials Science

    Biosensors

  • 2023

The development of highly specific, multi-enzyme mimicking nanozymes could lead to the creation of highly sensitive and low-biofouling biosensors, which have the potential to bring a paradigm shift in biomolecular sensing.

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156 References

Rationally Modulate the Oxidase-like Activity of Nanoceria for Self-Regulated Bioassays
    Hanjun ChengShichao LinFaheem MuhammadYing-Wu LinHui Wei

    Chemistry, Materials Science

  • 2016

It is demonstrated that the oxidase-like catalytic activity of nanoceria was rationally modulated in situ via proton-producing/consuming enzyme-catalyzed bioreactions, which formed the basis of self-regulated bioassays for determining the corresponding enzyme activity, as well as other important targets, such as nerve agents, drugs, and bioactive ions.

  • 246
Nanozymes: Classification, Catalytic Mechanisms, Activity Regulation, and Applications.
    Yanyan HuangJinsong RenXiaogang Qu

    Materials Science, Chemistry

    Chemical reviews

  • 2019

This review systematically introduces the classification, catalytic mechanism, activity regulation as well as recent research progress of nanozymes in the field of biosensing, environmental protection, and disease treatments, etc. in the past years.

  • 1,916
When Nanozymes Meet Single-Atom Catalysis.
    Lei JiaoHongye Yan Yuehe Lin

    Chemistry, Materials Science

    Angewandte Chemie

  • 2019

The unique properties and the recent advances in the synthesis, characterization, and applications of SACs are demonstrated, covering the impressive progress in single-atom nanozymes and their applications in sensing, organic pollutants degradation and therapy.

  • 468
Structure and activity of nanozymes: Inspirations for de novo design of nanozymes
    Zhuoran WangRuofei ZhangXiyun YanKelong Fan

    Materials Science, Chemistry

    Materials Today

  • 2020
  • 404
  • PDF
Nanozymes: From New Concepts, Mechanisms, and Standards to Applications.
    Minmin LiangXiyun Yan

    Chemistry, Materials Science

    Accounts of chemical research

  • 2019

By combining the unique physicochemical properties and enzyme-like catalytic activities, nanozymes can offer a variety of multifunctional platforms with a broad of applications from in vitro detection to in vivo monitoring and therapy.

  • 859
  • PDF
A Remarkably Efficient MnFe2 O4 -based Oxidase Nanozyme.
    Amit A. VernekarTandrila DasSourav GhoshG. Mugesh

    Materials Science, Chemistry

    Chemistry, an Asian journal

  • 2016

An efficient synthesis of MnFe2 O4 nanomaterials is described and how the morphology can be controlled by using a simple co-precipitation method is shown, which exhibits a remarkable oxidase-like activity.

  • 98
Recent Advances in Nanozyme Research
    Hui WangKaiwei WanXinghua Shi

    Chemistry, Materials Science

    Advanced materials

  • 2018

The progress of experimental and computational research of nanoZymes on two issues over the past decade is briefly reviewed: experimental development of new nanozymes mimicking different types of enzymes and the catalytic mechanism proposed by experimental and theoretical study.

  • 565
Nanomaterials with enzyme-like characteristics (nanozymes): next-generation artificial enzymes.
    Hui WeiE. Wang

    Materials Science, Chemistry

    Chemical Society reviews

  • 2013

This review discusses various nanomaterials that have been explored to mimic different kinds of enzymes and covers their kinetics, mechanisms and applications in numerous fields, from biosensing and immunoassays, to stem cell growth and pollutant removal.

  • 2,866
  • PDF
Nanozyme: new horizons for responsive biomedical applications.
    Dawei JiangDalong NiZ. RosenkransPeng HuangXiyun YanW. Cai

    Medicine, Materials Science

    Chemical Society reviews

  • 2019

By integrating the catalytic property and inherent nanomaterial nature of nanozyme systems, it is anticipated that stimuli-responsive nanozymes will open up new horizons for diagnosis, treatment, and theranostics.

  • 731
  • PDF
Nanozyme antioxidants as emerging alternatives for natural antioxidants: Achievements and challenges in perspective
    Milad GhorbaniH. Derakhshankhah A. Ansari

    Materials Science, Chemistry

  • 2019
  • 50

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