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Literature DB >> 29430831

Specific Oxygenated Groups Enriched Graphene Quantum Dots as Highly Efficient Enzyme Mimics.

Huan Wang^1,2, Chaoqun Liu^1,3, Zhen Liu¹, Jinsong Ren¹, Xiaogang Qu¹.

Abstract

Significant progress is achieved for the utilization of graphene quantum dots as enzyme mimics in various biomedical fields recently. Although promising, the biocatalytic performance is far from satisfactory. Here, the rational design and synthesis of specific oxygenated groups enriched graphene quantum dots (o-GQDs) via a facile oxidation reflux route is reported. These well-prepared o-GQDs with uniform size exhibit an ultrahigh peroxidase-like activity in a wide range of pH values, and their superior performance is verified by using glucose detection as a typical model. Compared with classical nanozymes, these o-GQDs show multiple times higher enzymatic activity. It is believed that the super facile synthesis strategy can greatly facilitate the practical use of o-GQDs as enzyme mimics in the future.

Entities: Chemical

Keywords: graphene quantum dots; nanozymes; specific oxygenated groups

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Year: 2018 PMID： 29430831 DOI： 10.1002/smll.201703710

Source DB: PubMed Journal: Small ISSN： 1613-6810 Impact factor: 13.281

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Cited

8 in total

1. A green and facile approach to a graphene-based peroxidase-like nanozyme and its application in sensitive colorimetric detection of L-cysteine.

Authors: Chao Liu; Yunmeng Zhao; Di Xu; Xinxin Zheng; Qing Huang
Journal: Anal Bioanal Chem Date: 2021-05-07 Impact factor: 4.142

Specific Oxygenated Groups Enriched Graphene Quantum Dots as Highly Efficient Enzyme Mimics.

1. A green and facile approach to a graphene-based peroxidase-like nanozyme and its application in sensitive colorimetric detection of L-cysteine.

Review 2. Carbon dots as artificial peroxidases for analytical applications.

3. Date Pit Carbon Dots Induce Acidic Inhibition of Peroxidase and Disrupt DNA Repair in Antibacteria Resistance.

4. Ultrasmall copper nanoclusters with multi-enzyme activities.

Review 5. Nanozymes: Versatile Platforms for Cancer Diagnosis and Therapy.

Review 6. The Transformation of 0-D Carbon Dots into 1-, 2- and 3-D Carbon Allotropes: A Minireview.

7. SERS monitoring of photoinduced-enhanced oxidative stress amplifier on Au@carbon dots for tumor catalytic therapy.

8. Aptamer-Modified Cu²⁺-Functionalized C-Dots: Versatile Means to Improve Nanozyme Activities-"Aptananozymes".

Specific Oxygenated Groups Enriched Graphene Quantum Dots as Highly Efficient Enzyme Mimics.

1. A green and facile approach to a graphene-based peroxidase-like nanozyme and its application in sensitive colorimetric detection of L-cysteine.

Review 2. Carbon dots as artificial peroxidases for analytical applications.

3. Date Pit Carbon Dots Induce Acidic Inhibition of Peroxidase and Disrupt DNA Repair in Antibacteria Resistance.

4. Ultrasmall copper nanoclusters with multi-enzyme activities.

Review 5. Nanozymes: Versatile Platforms for Cancer Diagnosis and Therapy.

Review 6. The Transformation of 0-D Carbon Dots into 1-, 2- and 3-D Carbon Allotropes: A Minireview.

7. SERS monitoring of photoinduced-enhanced oxidative stress amplifier on Au@carbon dots for tumor catalytic therapy.

8. Aptamer-Modified Cu2+-Functionalized C-Dots: Versatile Means to Improve Nanozyme Activities-"Aptananozymes".

8. Aptamer-Modified Cu²⁺-Functionalized C-Dots: Versatile Means to Improve Nanozyme Activities-"Aptananozymes".