Trung Hieu Vu scite author profile

Surface engineering of nanozymes has been recognized as a potent strategy to improve their catalytic activity and specificity. We synthesized polydopamine-coated Co3O4 nanoparticles (PDA@Co3O4 NPs) through simple dopamine-induced self-assembly and demonstrated that these NPs exhibit catalase-like activity by decomposing H2O2 into oxygen and water. The activity of PDA@Co3O4 NPs was approximately fourfold higher than that of Co3O4 NPs without PDA, possibly due to the additional radical scavenging activity of the PDA shell. In addition, PDA@Co3O4 NPs were more stable than natural catalase under a wide range of pH, temperature, and storage time conditions. Upon the addition of a sample containing sulfide ion, the activity of PDA@Co3O4 NPs was significantly inhibited, possibly because of increased mass transfer limitations via the absorption of the sulfide ion on the PDA@Co3O4 NP surface, along with NP aggregation which reduced their surface area. The reduced catalase-like activity was used to determine the levels of sulfide ion by measuring the increased fluorescence of the oxidized terephthalic acid, generated from the added H2O2. Using this strategy, the target sulfide ion was sensitively determined to a lower limit of 4.3 µM and dynamic linear range of up to 200 µM. The fluorescence-based sulfide ion assay based on PDA@Co3O4 NPs was highly precise when applied to real tap water samples, validating its potential for conveniently monitoring toxic elements in the environment.

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Highly Efficient Nanozyme/Aptamer Conjugate-Based Electrochemical Biosensor Development for Waterborne Microcystin Detection

Park

Kwon

et al. 2022

SSRN Journal

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Low-power static and dynamic tactile sensing using in-situ fabricated PVDF-TrFE e-skin

Fastier-Wooller

Zhu

et al. 2021

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Construction of a rapid electrochemical biosensor consisting of a nanozyme/aptamer conjugate for waterborne microcystin detection

Kwon

et al. 2023

Analyst

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Trung Hieu Vu

The concept of light-harvesting, self-powered mechanical sensors using a monolithic structure

Polydopamine-Coated Co3O4 Nanoparticles as an Efficient Catalase Mimic for Fluorescent Detection of Sulfide Ion

Highly Efficient Nanozyme/Aptamer Conjugate-Based Electrochemical Biosensor Development for Waterborne Microcystin Detection

Low-power static and dynamic tactile sensing using in-situ fabricated PVDF-TrFE e-skin

Construction of a rapid electrochemical biosensor consisting of a nanozyme/aptamer conjugate for waterborne microcystin detection

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