Antibiocorrosive Hybrid Materials with High Durability

Barbakadze, Khatuna; Brostow, Witold; Hnatchuk, Nathalie; Lekishvili, Giorgi; Arziani, B; Zagórski, Krzysztof; Lekishvili, N.

doi:10.23939/chcht15.04.500

Cited by 1 publication

(1 citation statement)

References 28 publications

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“…19 In addition, the production of self-clean and antibacterial surfaces has also received attention in the production of polymer composite materials, for example combining nano- TiO 2 with polyurethane to produce antibacterial materials and having photocatalytic properties that can be used in polymer paints and coatings. 19 Furthermore, Khatuna Barbakadze et al 41 recently produced novel photostable, hydrophobic antimicrobial materials based on functionalized fluorine-organic methacrylate copolymers with epoxy groups in the main chains. In addition to self-cleaning qualities, the materials feature better tribological properties such as less wear, higher scratch resistance, adequate viscosity, and acceptable dynamic friction.…”

Section: Strategy 3: Development Of Self-cleaning Surfacesmentioning

confidence: 99%

A brief overview of the marine environmentally friendly anti-fouling surface strategy

Yusuf

Ghazali

Taha

et al. 2022

Proceedings of the Institution of Mechanical Engineers, Part J:

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Fouling that develops on the surface of maritime environmental components, such as hulls and pipelines, can lead to various adverse effects and large losses to the company. Living organisms such as bacteria, algae, and shellfish, as well as organic and inorganic materials, settle on the surface and can affect function and productivity. The development of anti-fouling surfaces, such as surfaces containing chemicals that are biocidal agents, has long been used. However, the usage has been banned because of marine environmental effects. In this review, the current state of strategy for the fabrication of an environmentally anti-fouling surface that is suitable for marine environments is discussed. Several strategies for producing environmentally friendly anti-fouling surfaces have been established, such as the development of surfaces with antibacterial and self-cleaning properties, and have been successfully implemented in other fields such as textiles, medicine, and buildings. Among the methods that may be used are the development of surfaces that include biocides; surfaces that inhibit and prevent bacterial adhesion; and surfaces that have components that can kill bacteria when contacted. Self-cleaning surfaces, on the other hand, can be made by creating surfaces with superhydrophobic or superhydrifilic wettability properties, as well as photocatalytic surfaces with self-cleaning properties that can be used in the marine environment.

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Section: Strategy 3: Development Of Self-cleaning Surfacesmentioning

confidence: 99%