Recoverable peroxidase-like Fe3O4@MoS2-Ag nanozyme with enhanced antibacterial ability

Feng, Wei; Cui, Xinyu; Wang, Zhao; Dong, Chuan; Li, Jiadong; Han, Xiaojun

doi:10.1016/j.cej.2020.127240

Cited by 215 publications

(110 citation statements)

References 54 publications

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“…After air drying, 2.5% glutaraldehyde solution was added to fix the bacteria for 3 h. The samples were washed with 10%, 30%, 50%, 70%, 90% and 100% ethanol for 3 min and then frozen overnight. SEM observations were conducted after drying in a freeze dryer for 6 h [28] , [29] .…”

Section: Methodsmentioning

confidence: 99%

H2O2 generation enhancement by ultrasonic nebulisation with a zinc layer for spray disinfection

Cao

Tong

Feng

et al. 2022

Chemical Engineering Journal

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Graphical abstract The effective generation of H 2 O 2 and Zn 2+ by ultrasonic nebulisation was realized by assembiling a zinc layer on the oscillator plate of a commercial ultrasonic nebuliser. After 30 min, H 2 O 2 (121.25 μM) and Zn 2+ (4.75 μg/mL) were produced and sprayed in the air for disinfection. A sterilization ratio of 93.53% for E. coli was obtained.

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Section: Methodsmentioning

confidence: 99%

H2O2 generation enhancement by ultrasonic nebulisation with a zinc layer for spray disinfection

Cao

Tong

Feng

et al. 2022

Chemical Engineering Journal

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“…In the high-resolution spectrum of Ag 3d (Figure 1f), the two different peaks observed at 374.6 and 368.6 eV represented Ag 3d3/2 and Ag 3d5/2, with a splitting energy of 6 eV, indicating that the surface of MoS 2 @PDA was successfully coated with metallic silver. [32] Figure 1g shows a typical low-magnification transmission electron microscopy (TEM) image of the synthesized MoS 2 , which primarily consisted of small-sized nanoplatelets, disordered crystals, and microcrystals. [33] The modification of MoS 2 by mussel chemistry with PDA coating leads to a significant increase in thickness compared to that of pristine MoS 2 nanoparticles, demonstrating the successful synthesis of MoS 2 @PDA nanoparticles (Figure 1h).…”

Section: Structural Characterizationmentioning

confidence: 99%

MoS₂@PDA@Ag/PVA Hybrid Hydrogel with Excellent Light‐Responsive Antibacterial Activity and Enhanced Mechanical Properties for Wound Dressing

Yan

Liu

et al. 2022

Macro Materials & Eng

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Hydrogel is an ideal wound dressing material because of its 3D network structure, which is similar to that of the extracellular matrix. However, it is a challenge to design antibiotic-free hydrogels with both antibacterial activity and enhanced mechanical strength. In this study, a polyvinyl alcohol (PVA) hybrid hydrogel incorporated with molybdenum disulfide@polydopamine@silver (MoS 2 @PDA@Ag) is prepared for rapid killing of bacteria under irradiation with near-infrared (NIR) light. The interpenetration of MoS 2 -based nanoparticles and PVA molecular chain significantly improves the mechanical property of the hydrogel. The hydrogels demonstrate an excellent photothermal effect and antibacterial activity, and the photocatalytic properties are considerably enhanced by Ag doping. The hydrogel exhibits favorable antibacterial activity after irradiation with 808 nm NIR light for 15 min due to the synergistic effect of reactive oxygen species and hyperthermia. Meanwhile, in vitro 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay further demonstrated that all hydrogels are nontoxic when their effects are examined against mouse fibroblasts (L929) cells. In addition, the MoS 2 @PDA@Ag/PVA hydrogel can promote wound healing compared with the pure PVA hydrogel, demonstrating its significant potential in mitigating bacterial infection of wounds.

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“…Besides the therapeutic platform, incorporating Au NPs into mesoporous carbon can facilitate the action of POD mimitic activity and generate ROS for intracellular oxidative damage of cancer cells. As shown in Figure 5 In addition to the previously mentioned advantages of nanozymes in cancer therapeutics, several further POD mimetic nanozyme platforms such as Au@Co-Fe NPs [72], CuO Nanorods [73], Fe3O4@MoS2-Ag nanozyme [74], Pd nanocrystals [75], and Pt hollow nanodendrites [76], N-doped spongelike carbon spheres (N-SCSs) [77], PEGylated palladium nanozyme (Pd-PEG) [78], tungsten sulfide quantum dots (WS2 QDs) [79], nickel disulfide (ND) nanozyme [80], iridium (Ir) nanoplates [81] and MoS2 [82] have been successfully utilized in antibacterial applications with significant outcomes. Table 1 summarizes POD-based nanozyme applications in cancer phototherapeutics.…”

Section: Peroxidase Mimetic Nanozymes In Oxygen-dependent Cancer Photodynamic Therapymentioning

confidence: 99%

Peroxidase Mimetic Nanozymes in Cancer Phototherapy: Progress and Perspectives

Thangudu

2021

Biomolecules

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Nanomaterial-mediated cancer therapeutics is a fast developing field and has been utilized in potential clinical applications. However, most effective therapies, such as photodynamic therapy (PDT) and radio therapy (RT), are strongly oxygen-dependent, which hinders their practical applications. Later on, several strategies were developed to overcome tumor hypoxia, such as oxygen carrier nanomaterials and oxygen generated nanomaterials. Among these, oxygen species generation on nanozymes, especially catalase (CAT) mimetic nanozymes, convert endogenous hydrogen peroxide (H2O2) to oxygen (O2) and peroxidase (POD) mimetic nanozymes converts endogenous H2O2 to water (H2O) and reactive oxygen species (ROS) in a hypoxic tumor microenvironment is a fascinating approach. The present review provides a detailed examination of past, present and future perspectives of POD mimetic nanozymes for effective oxygen-dependent cancer phototherapeutics.

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Recoverable peroxidase-like Fe3O4@MoS2-Ag nanozyme with enhanced antibacterial ability

Abstract: Graphical abstract

Cited by 215 publications

References 54 publications

H2O2 generation enhancement by ultrasonic nebulisation with a zinc layer for spray disinfection

H2O2 generation enhancement by ultrasonic nebulisation with a zinc layer for spray disinfection

MoS₂@PDA@Ag/PVA Hybrid Hydrogel with Excellent Light‐Responsive Antibacterial Activity and Enhanced Mechanical Properties for Wound Dressing

Peroxidase Mimetic Nanozymes in Cancer Phototherapy: Progress and Perspectives

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Recoverable peroxidase-like Fe3O4@MoS2-Ag nanozyme with enhanced antibacterial ability

Abstract: Graphical abstract

Cited by 215 publications

References 54 publications

H2O2 generation enhancement by ultrasonic nebulisation with a zinc layer for spray disinfection

H2O2 generation enhancement by ultrasonic nebulisation with a zinc layer for spray disinfection

MoS2@PDA@Ag/PVA Hybrid Hydrogel with Excellent Light‐Responsive Antibacterial Activity and Enhanced Mechanical Properties for Wound Dressing

Peroxidase Mimetic Nanozymes in Cancer Phototherapy: Progress and Perspectives

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Product

Resources

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MoS₂@PDA@Ag/PVA Hybrid Hydrogel with Excellent Light‐Responsive Antibacterial Activity and Enhanced Mechanical Properties for Wound Dressing