Novel Anticorrosion Property of Organic Coating Based on Liquid Metal

Zhang, Yunlei; Li, Zhaoxia; Qian, Yingyi; Yu, Qiangliang; Pei, Xiaowei; Yu, Bo; Zhou, Feng

doi:10.1002/admi.201900942

Cited by 12 publications

(5 citation statements)

References 58 publications

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“…A growing number of researchers have tried to fabricate films by incorporating modified LM particles to coat matrices over the recent years, and these films tended to exhibit brilliant corrosion resistance and bacterial inhibition. For example, Zhang et al [ 116 ] incorporated Ga-based LM nanoparticles into epoxy-based coatings, and it was experimentally demonstrated that the films formed by this material exhibited an outstanding corrosion resistance. Simultaneously, the incorporation of LM particles amended the defects of the original coating and improved the mechanical properties of the film.…”

Section: Antibacterial Application Of Lm-based Materialsmentioning

confidence: 99%

Gallium-Based Liquid Metal Materials for Antimicrobial Applications

Liang

Wang

et al. 2022

Bioengineering

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The hazards caused by drug-resistant bacteria are rocketing along with the indiscriminate use of antibiotics. The development of new non-antibiotic antibacterial drugs is urgent. The excellent biocompatibility and diverse multifunctionalities of liquid metal have stimulated the studies of antibacterial application. Several gallium-based antimicrobial agents have been developed based on the mechanism that gallium (a type of liquid metal) ions disorder the normal metabolism of iron ions. Other emerging strategies, such as physical sterilization by directly using LM microparticles to destroy the biofilm of bacteria or thermal destruction via infrared laser irradiation, are gaining increasing attention. Different from traditional antibacterial agents of gallium compounds, the pronounced property of gallium-based liquid metal materials would bring innovation to the antibacterial field. Here, LM-based antimicrobial mechanisms, including iron metabolism disorder, production of reactive oxygen species, thermal injury, and mechanical destruction, are highlighted. Antimicrobial applications of LM-based materials are summarized and divided into five categories, including liquid metal motors, antibacterial fabrics, magnetic field-responsive microparticles, liquid metal films, and liquid metal polymer composites. In addition, future opportunities and challenges towards the development and application of LM-based antimicrobial materials are presented.

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Section: Antibacterial Application Of Lm-based Materialsmentioning

confidence: 99%

Gallium-Based Liquid Metal Materials for Antimicrobial Applications

Liang

Wang

et al. 2022

Bioengineering

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“…56 The reason why the corrosion resistance of epoxy coating was enhanced after adding LM and GO was that a small amount of LM particles had certain barrier properties, and the impermeability of GO to corrosive media also enhanced the corrosion resistance of the coating. 57,58 And it can be seen from Figure 10, after 15 days of 0.1 mol/L NaOH immersion, all coatings suffered less corrosion, and the surface remained in a similar state to that before immersion. After 15 days of immersion in 0.1 mol/L HCl, relatively large holes appeared on the surface of pure epoxy coating (Figure 10A), indicating that its surface had been corroded by acid.…”

Section: Mechanical Propertiesmentioning

confidence: 87%

“…The addition of LM and GO fillers kept the surface of the epoxy composite coatings relatively flat, indicating that LM and GO limited the further corrosion of HCl on the epoxy coating 56. The reason why the corrosion resistance of epoxy coating was enhanced after adding LM and GO was that a small amount of LM particles had certain barrier properties, and the impermeability of GO to corrosive media also enhanced the corrosion resistance of the coating 57,58. And it can be seen from Figure10, after 15 days of 0.1 mol/L NaOH immersion, all coatings suffered less…”

mentioning

confidence: 99%

Synergistic dispersion and tribo‐film formation of liquid metal @graphene oxide/epoxy coating: Toward improved mechanical and anti‐wear properties

et al. 2023

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A series of epoxy composite coatings filled with liquid metal (LM) and graphene oxide (GO) are successfully prepared as the self-lubricating material in this work. The dispersion of LM and GO (LM@GO) in epoxy coating and its effect on the thermal, tribological, and mechanical properties of epoxy coating are systematically studied by using thermogravimetric analysis, differential scanning calorimetry, mechanical and friction, and wear tester. The LM@GO filler has been proved to be an effective composite filler, which can be uniformly dispersed in epoxy coating, reduce the wear volume, and improve its mechanical properties of epoxy coating. When the filler content is 0.5 wt% LM and 0.03 wt% GO, the wear volume of epoxy composite coating is dramatically reduced by 91.7% and the elastic modulus is increased by 16.3% compared with pure epoxy. The synergistic effect of the friction reduction of LM and the mechanical support of GO makes the composite coating form a uniform and stable transfer film, which improves its wear resistance. And through chemical stability experiments, the composite coating has a strong resistance to acid and alkali. This work will render the epoxy-LM@GO have the potential of application on the mechanical molds, electronic components.

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“…16,17 Directly coating or filling the gaps between materials with LM can be used to achieve a uniform and controllable fusion of LM with the polymer matrix. [18][19][20] Furthermore, it is possible to regulate the properties of composite materials by introducing 2D material precursors onto the surface of LM through chemical deposition and utilizing LM as a reducing agent for interface reactions with the materials. 21,22 These methods all facilitate the effective integration of LM and 2D materials, offering pathways to construct composite materials with tailored properties and applications.…”

Section: Introductionmentioning

confidence: 99%

“…Previous studies have explored the incorporation of LM into materials through impregnation and vacuum filtration methods 16,17 . Directly coating or filling the gaps between materials with LM can be used to achieve a uniform and controllable fusion of LM with the polymer matrix 18–20 . Furthermore, it is possible to regulate the properties of composite materials by introducing 2D material precursors onto the surface of LM through chemical deposition and utilizing LM as a reducing agent for interface reactions with the materials 21,22 .…”

Section: Introductionmentioning

confidence: 99%

Enhancing wear resistance and mechanical property of epoxy coating via “roller wheel” liquid metal‐MXene

Zheng,

Nie,

Wang

et al. 2024

J of Applied Polymer Sci

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This work presents a design of a unique “roller wheel” structure combining rigid MXene and flexible liquid metal (LM), aiming to construct an epoxy composite coating with simultaneous advanced mechanical strength and lubrication properties. The antiwear property of the epoxy composites is improved by 72.8% when the LM is 0.5 wt% and MXene is 0.03 wt%. The incorporation of LM‐MXene improved the mechanical properties of the epoxy composite coating, resulting in an approximately 136.6% increase in elastic modulus. The unique “roller wheel” structure provides additional mechanical support and leads to lower adhesion between the MXene layers and LM. As a result, LM reduces the stripping and sliding of the interface between MXene layers during the friction process, further enhancing the lubrication performance of the epoxy composite coating.

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Novel Anticorrosion Property of Organic Coating Based on Liquid Metal

Cited by 12 publications

References 58 publications

Gallium-Based Liquid Metal Materials for Antimicrobial Applications

Gallium-Based Liquid Metal Materials for Antimicrobial Applications

Synergistic dispersion and tribo‐film formation of liquid metal @graphene oxide/epoxy coating: Toward improved mechanical and anti‐wear properties

Enhancing wear resistance and mechanical property of epoxy coating via “roller wheel” liquid metal‐MXene

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