Tannic Acid-Capped Gold Nanoparticles as a Novel Nanozyme for Colorimetric Determination of Pb2+ Ions

Serebrennikova, Kseniya V.; Komova, Nadezhda S.; Berlina, Anna N.; Zherdev, Anatoly V.; Dzantiev, Boris B.

doi:10.3390/chemosensors9120332

Cited by 12 publications

(8 citation statements)

References 49 publications

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“…The lower free energy favors the proximity of FNA to nucleation seq and the surface of the nanozyme, which improves the electron transfer on the surface of the nanozyme and enzymatic activity. [ 40,41 ] However, when the two sequences are completely complementary, the increase in enzyme activity is not noticeable (ES‐15‐2 and NS15‐2). Combined with the downstream hybridization seq optimization results, it can be seen that the complementary sequence here is different from that of Figure 2a (orange background), and it is in the trade‐off state of promotion and inhibition.…”

Section: Resultsmentioning

confidence: 99%

Coordination‐Driven One‐Step Rapid Self‐Assembly Synthesis of Dual‐Functional Ag@Pt Nanozyme

Zhu

Wang

et al. 2023

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Realizing high‐precise and adjustable regulation of engineering nanozyme is important in nanotechnology. Here, Ag@Pt nanozymes with excellent peroxidase‐like and antibacterial effects are designed and synthesized by nucleic acid and metal ions coordination‐driven one‐step rapid self‐assembly. The adjustable NA‐Ag@Pt nanozyme is synthesized within 4 min using single‐stranded nucleic acid as templates, and peroxidase‐like enhancing FNA‐Ag@Pt nanozyme is received by regulating functional nucleic acids (FNA) based on NA‐Ag@Pt nanozyme. Both Ag@Pt nanozymes that are developed not only has simple and general synthesis approaches, but also can produce artificial precise adjustment and possess dual‐functional. Moreover, when lead ion‐specific aptamers as FNA are introduced to NA‐Ag@Pt nanozyme, the Pb2+ aptasensor is successfully constructed by increasing electron conversion efficiency and improving the specificity of nanozyme. In addition, both nanozyme has good antibacterial properties, with ~100% and ~85% antibacterial efficiency against Escherichia coli and Staphylococcus aureus, respectively. This work provides a synthesis method of novelty dual‐functional Ag@Pt nanozymes and successful application in metal ions detection and antibacterial agents.

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Section: Resultsmentioning

confidence: 99%

Coordination‐Driven One‐Step Rapid Self‐Assembly Synthesis of Dual‐Functional Ag@Pt Nanozyme

Zhu

Wang

et al. 2023

Small

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“…Employing enzymatically active HRP-coated AuNPs, they catalyzed polymerization, resulting in thermoresponsive polymers, and fully recovered without significant loss of their catalytic activity [35]. Tannic acid-modified gold nanoparticles exhibit superior nanozyme activity and catalyze the oxidation reaction of TMB in the presence of H 2 O 2 [36]. Positively charged gold nanoparticles possess intrinsic peroxidase-like activity and can catalyze the oxidation of the peroxidase substrate, TMB, by H 2 O 2 , providing a straightforward approach to colorimetric detection [23].…”

Section: Discussionmentioning

confidence: 99%

The optimization of gold nanoparticles–horseradish peroxidase as peroxidase mimic using central composite design for the detection of hydrogen peroxide

Talapphet,

Huh

2024

Nano Ex.

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The oxidizing agent, hydrogen peroxide (H2O2), which is a part of reactive oxygen species (ROS) is well-known to contribute to oxidative stress-induced damage to biological molecules. An excess of free radicals can harm health and is associated with human diseases. Gold nanotechnology, a highly relevant nanomaterial, has been utilized as a new material in advanced sensor detection. In this study, colorimetric methods based on peroxidase enzymes were developed for measuring H2O2. The synthesized gold nanoparticles (AuNPs) showed a concentration of approximately 1.73 nM at a wavelength of 520 nm. The average diameter displayed a uniform size distribution, estimated at 18 nm, and an increase in the shell thickness of AuNPs-horseradish peroxidase (HRP) was observed in the TEM images. The AuNPs-HRP system demonstrated remarkable catalytic activity in the reaction of the chromogenic substrate tetramethylbenzidine (TMB) with H2O2, resulting in the production of an oxide product. The optimal conditions for the AuNPs-HRP system, as determined by central composite design (CCD), were a temperature of 25 °C and a pH of 7 within an 8 h period. A strong linear relationship was observed between different absorbance values and the H2O2 concentration, with a coefficient of determination of 0.9956. A portable platform was successfully used to determine H2O2 levels in beverages with recoveries ranging from 95.51% to 118.85%. These findings suggest that the AuNPs-HRP system could be applied to detect H2O2 in beverages.

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“…2). Additionally, some materials, such as quantum dots (QDs), 68 β-cyclodextrin (β-CD), 69 polyoxometalates (POMs), 70 polyvinyl alcohol, 71 hydrogel, 72 cysteamine 73 and tannic acid 74 combined with Au NPs showed higher catalytic activity under neutral conditions, and were successfully utilized for colorimetric detection of metal ions and small biological molecules.…”

Section: Metal-based Nanozymesmentioning

confidence: 99%

Recent advances in colorimetric sensors based on nanozymes with peroxidase-like activity

Chi

Wang

2023

Analyst

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Tannic Acid-Capped Gold Nanoparticles as a Novel Nanozyme for Colorimetric Determination of Pb2+ Ions

Cited by 12 publications

References 49 publications

Coordination‐Driven One‐Step Rapid Self‐Assembly Synthesis of Dual‐Functional Ag@Pt Nanozyme

Coordination‐Driven One‐Step Rapid Self‐Assembly Synthesis of Dual‐Functional Ag@Pt Nanozyme

The optimization of gold nanoparticles–horseradish peroxidase as peroxidase mimic using central composite design for the detection of hydrogen peroxide

Recent advances in colorimetric sensors based on nanozymes with peroxidase-like activity

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