Jiangfan Chang scite author profile

Cerium oxide nanorods as haloperoxidase started to gain attention due to their great potential as a biologically benign antifoulant. The antibacterial efficiency induced by haloperoxidase activity of cerium oxide nanorods with different aspect ratios is currently unexplored. Herein, the relationship between different aspect ratios, haloperoxidase activities, and antibacterial effects was systematically investigated. CeO2–x nanorods with different aspect ratios were synthesized by merely controlling NaOH concentrations via a traditional hydrothermal method. The CeO2–x nanorods exposed {110} facets and supplied the Ce3+ sites to ensure the haloperoxidase activities. The haloperoxidase activities of CeO2–x nanorods were varied with their aspect ratios because of their differences in Ce3+ concentration, oxygen vacancies, and band gap energies. More importantly, their antibacterial efficiency was in the same order as their haloperoxidase activity, indicating that natural intermediates (HOBr) are induced by the haloperoxidase mimicking activity to achieve antibacterial efficiency. This work provides a guide for improving antibacterial efficiency of cerium oxide nanorods by modulating their aspect ratios.

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The impact of hydrodynamic shear force on adhesion morphology and biofilm conformation of Bacillus sp.

Chang

Bai

et al. 2020

Ocean Engineering

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Fabrication of biomimetic slippery liquid‐infused porous surface on 5086 aluminum alloy with excellent antifouling performance

Yang

Chang

et al. 2020

Surface & Interface Analysis

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Biofouling triggers extensive research in ship tribology. Antifouling technology has garnered great attention as a solution for biofouling; thus, biomimetic lubricant‐infused surfaces are developed as alternatives to superhydrophobic surfaces. In this study, we developed slippery liquid‐infused porous surfaces (SLIPS) by infusing perfluoropolyether oil into porous anodic aluminum oxide (AAO) surfaces using a vacuum impregnation device. The oil settled firmly in the AAO surfaces owing to the strong capillary forces in the pores, thus forming a lubricating layer with a low contact angle hysteresis and long‐term slippery condition. SLIPS exhibited an excellent antifouling performance by reducing 98.4% of Phaeodactylum tricornutum. The coefficient of biofilm formed by the microorganisms was also investigated. The results confirmed that the lubricating layer impeded the formation of biofilm. This research provides valuable information for the fabrication of SLIPS and its antifouling mechanism.

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Facile fabrication of fluorine-free slippery lubricant-infused cerium stearate surfaces for marine antifouling and anticorrosion application

Yang

Chang

et al. 2021

Surface and Coatings Technology

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Jiangfan Chang

Haloperoxidase Mimicry by CeO_2–x Nanorods of Different Aspect Ratios for Antibacterial Performance

The impact of hydrodynamic shear force on adhesion morphology and biofilm conformation of Bacillus sp.

Fabrication of biomimetic slippery liquid‐infused porous surface on 5086 aluminum alloy with excellent antifouling performance

Facile fabrication of fluorine-free slippery lubricant-infused cerium stearate surfaces for marine antifouling and anticorrosion application

Contact Info

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Resources

About

Jiangfan Chang

Haloperoxidase Mimicry by CeO2–x Nanorods of Different Aspect Ratios for Antibacterial Performance

The impact of hydrodynamic shear force on adhesion morphology and biofilm conformation of Bacillus sp.

Fabrication of biomimetic slippery liquid‐infused porous surface on 5086 aluminum alloy with excellent antifouling performance

Facile fabrication of fluorine-free slippery lubricant-infused cerium stearate surfaces for marine antifouling and anticorrosion application

Contact Info

Product

Resources

About

Haloperoxidase Mimicry by CeO_2–x Nanorods of Different Aspect Ratios for Antibacterial Performance