Lining Fang scite author profile

In the marine environment, steel materials usually encounter serious problems with chemical or electrochemical corrosion and fouling by proteins, bacteria, and other marine organisms. In this work, a green bifunctional Z-scheme CuOx/Ag/P25 heterostructure coating material was designed to achieve the coordination of corrosion prevention and antifouling by matching the redox potential of the reactive oxygen species and the corrosion potential of 304SS. When CuOx/Ag/P25 heterostructure was coupled with the protected metal, the open circuit potential under illumination negatively shifted about 240 mV (vs. Ag/AgCl) and the photoinduced current density reached 16.6 μA cm−2. At the same time, more reactive oxygen species were produced by the Z-shape structure, and then the photocatalytic sterilization effect was stronger. Combined with the chemical sterilization of Ag and the oxide of Cu, the bacterial survival rate of CuOx/Ag/P25 was low (0.006%) compared with the blank sample. This design provides a strategy for developing green dual-functional coating materials with photoelectrochemical anticorrosion and antifouling properties.

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Rational synthesis of core-shell Fe3O4@thermally crosslinked PANI nanostructures based on a PVP-mediated in-situ polymerization strategy: Towards a stable catalyst support for 12-tungstophosphoric acid

Fang

Wang

Guo

2017

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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One-Step Preparation of High Performance TiO2/CNT/CQD Nanocomposites Bactericidal Coating with Ultrasonic Radiation

et al. 2023

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As an environmental semiconductor material, TiO2 has important applications in the fields of environmental protection and water treatment. The preparation of P25 particles into nano-functional material films with a high specific surface area has always been a bottleneck limiting its large-scale application. In this paper, a one-step method of preparing TiO2 nanocomposites by doping carbon nanotube (CNT) and carbon quantum dots (CQD) with tetrabutyltitanate and P25 TiO2 under ultrasonic radiation is proposed to synthesize a novel antifouling material, which both eliminates the bacterium of Escherichia coli and shows good photoelectric properties, indicating a great value for the industrial promotion of TiO2/CNT. This mesoporous composite exhibits a high specific surface area of 78.07 M2/g (BET) and a tested pore width range within 10–120 nm. The surface morphology of this composite is characterized by TEM and the microstructure is characterized through XRD. This preparation method can fabricate P25 particles into a nano-functional material film with a high specific surface area at a very low cost.

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Lining Fang

YBaCo4O7+δ sorbent for oxygen-enriched carbon dioxide stream production at a low-temperature

Z-Scheme CuOx/Ag/TiO2 Heterojunction as Promising Photoinduced Anticorrosion and Antifouling Integrated Coating in Seawater

Rational synthesis of core-shell Fe3O4@thermally crosslinked PANI nanostructures based on a PVP-mediated in-situ polymerization strategy: Towards a stable catalyst support for 12-tungstophosphoric acid

One-Step Preparation of High Performance TiO2/CNT/CQD Nanocomposites Bactericidal Coating with Ultrasonic Radiation

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