Evaluation of coatings corrosion resistance with biocomponents as antifouling additives

Kharchenko, U. V.; Беленева, И. А.

doi:10.1016/j.corsci.2013.03.004

Cited by 10 publications

(2 citation statements)

References 34 publications

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“…However, this method is characterized by low enzyme loading and noticeable mass transfer limitations. Enzymes can be incorporated into functional films by mixing the biocatalysts with polymer precursors and through emulsion-polymerization procedure coating metal plates by a draw-down method [22,171], by standard solution coating technique [31], or using a paint spreader [169,172]. Another entrapment method is generation of sol-gel coatings.…”

Section: Polymer-enzymementioning

confidence: 99%

Nanotechnological Advances in Catalytic Thin Films for Green Large‐Area Surfaces

Perkgöz

2015

Journal of Nanomaterials

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Large-area catalytic thin films offer great potential for green technology applications in order to save energy, combat pollution, and reduce global warming. These films, either embedded with nanoparticles, shaped with nanostructuring techniques, hybridized with other systems, or functionalized with bionanotechnological methods, can include many different surface properties including photocatalytic, antifouling, abrasion resistant and mechanically resistive, self-cleaning, antibacterial, hydrophobic, and oleophobic features. Thus, surface functionalization with such advanced structuring methods is of significance to increase the performance and wide usage of large-area thin film coatings specifically for environmental remediation. In this review, we focus on methods to increase the efficiency of catalytic reactions in thin film and hence improve the performance in relevant applications while eliminating high cost with the purpose of widespread usage. However, we also include the most recent hybrid architectures, which have potential to make a transformational change in surface applications as soon as high quality and large area production techniques are available. Hence, we present and discuss research studies regarding both organic and inorganic methods that are used to structure thin films that have potential for large-area and eco-friendly coatings.

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Section: Polymer-enzymementioning

confidence: 99%

Nanotechnological Advances in Catalytic Thin Films for Green Large‐Area Surfaces

Perkgöz

2015

Journal of Nanomaterials

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“…A sol-gel route and use of silica particles (porous, mesoporous, hollow, functionalised, etc.) would enable to achieve superhydrophobicity that would enhance anti-fouling protection [39].…”

Section: Surface Modification and Functionalisationmentioning

confidence: 99%

The methodologies and strategies for the development of novel material systems and coatings for applications in extreme environments − a critical review

et al. 2018

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Abstract. The aim of this paper is to present a critical analysis of existing methodologies, approaches and strategies used to develop materials systems and coatings for uses in extreme environments. The extreme or harsh conditions encompass a large variety of in-service forms such as: extreme temperatures, abrasion, corrosion, impact and radiation that can exist in various applications such as those associated with aerospace and aeronautical engineering, land and marine transport, manufacturing machinery, and even microelectronics products. This article describes how working environment and required service performance of a particular part or structure could affect the choice of materials and surfaces to which it is composed. In addition, the paper explains the relevance that abusive working environments have for industry, especially relating to their costs, being followed by an overview of surface deposition approaches that are currently popularly used to improve performance of mechanical devices that need to combat adverse conditions. Finally, a material system and three kinds of protective coatings that could be used in applications in extreme conditions are described. The critical review is an outcome of the strategic review from the EU H2020 SUPERMAT project which deals with materials and manufacture for the products/structural parts used in extreme conditions. Keywords: extreme environment / material system / surface treatment / coating / economic impacts / case study Extreme environment and material-related issuesA harsh environment could be any environment that impedes the operation of a device/system. Many types of the conditions could be considered to be harsh, such as: extreme pressure/temperature, shock, vibration, chemical reactivity, radiation, corrosion and humidity, ranging from the applications in, such as alloy production, component manufacture, transport and biomedical implants [1] while the energy sector faces additional harsh environment such as that in various power plants [2], some of such examples being listed below: -Transport: Automobiles and airplanes that are operated in extreme conditions, being exampled by engines components and high-friction paired parts; -Energy: The devices/pipelines/components used for energy conversions, transports and storages, which faces high-temperature, various kinds of mediums and nuclear/chemical reactions, and suffer from corrosion and fatigue failures; -Manufacturing: Tools (e.g. cutting tools, dies and moulds, welding tools, high-temperature nozzles, etc.) used in manufacturing processes;

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Antifouling and anticorrosion potential of Pseudoalteromonas piscicida extract

2020

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Evaluation of coatings corrosion resistance with biocomponents as antifouling additives

Cited by 10 publications

References 34 publications

Nanotechnological Advances in Catalytic Thin Films for Green Large‐Area Surfaces

Nanotechnological Advances in Catalytic Thin Films for Green Large‐Area Surfaces

The methodologies and strategies for the development of novel material systems and coatings for applications in extreme environments − a critical review

Antifouling and anticorrosion potential of Pseudoalteromonas piscicida extract

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