Shengya Zhang scite author profile

ACS Appl. Mater. Interfaces

et al. 2022

The exploration of new strategies for portable detection of mercury ions with high sensitivity and selectivity is of great value for biochemical and environmental analyses. Herein, a straightforward, convenient, label-free, and portable sensing platform based on a Au nanoparticle (NP)-decorated WO 3 hollow nanoflower was constructed for the sensitive and selective detection of Hg(II) with a pressure, temperature, and colorimetric triple-signal readout. The resulting Au/WO 3 hollow nanoflowers (Au/WO 3 HNFs) could efficaciously impede the aggregation of Au NPs, thus significantly improving their catalytic activity and stability. The sensing mechanism of this new strategy using pressure as a signal readout was based on the mercury-triggered catalase mimetic activity of Au/ WO 3 HNFs. In the presence of the model analyte Hg(II), H 2 O 2 in the detection system was decomposed to O 2 fleetly, resulting in a detectable pressure signal. Accordingly, the quantification of Hg(II) was facilely realized based on the pressure changes, and the detection limit could reach as low as 0.224 nM. In addition, colorimetric and photothermal detection of Hg(II) using the Au/WO 3 HNFs based on their mercury-stimulated peroxidase mimetic activity was also investigated, and the detection limits were calculated to be 78 nM and 0.22 μM for colorimetric and photothermal methods, respectively. Hence, this nanosensor can even achieve multimode determination of Hg(II) with the concept of point-of-care testing (POCT). Furthermore, the proposed multimode sensing platform also displayed satisfactory sensing performance for the Hg(II) assay in actual water samples. This promising strategy may provide novel insights on the fabrication of a multimode POCT platform for sensitive, selective, and accurate detection of heavy metal ions.

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Controlled growth of AgI nanoparticles on hollow WO3 hierarchical structures to act as Z-scheme photocatalyst for visible-light photocatalysis

Journal of Colloid and Interface Science

et al. 2020

Hierarchically porous BiOCl@NiCo₂O₄ nanoplates as low-cost and highly efficient catalysts for the discoloration of organic contaminants in aqueous media

et al. 2020

New J. Chem.

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Fabrication of redox-mediator-free Z-scheme CdS/NiCo2O4 photocatalysts with enhanced visible-light driven photocatalytic activity in Cr(VI) reduction and antibiotics degradation

Colloids and Surfaces A: Physicochemical and Engineering Aspect

et al. 2021

One stone with four birds: Methylene blue decorated oxygen-vacancy-rich MnO2 nanosheets for multimode detection of ascorbic acid

Sensors and Actuators B: Chemical

et al. 2022