Advances in the development of superhydrophobic and icephobic surfaces

Elzaabalawy, Assem; Meguid, S. A.

doi:10.1007/s10999-022-09593-x

Cited by 14 publications

(6 citation statements)

References 267 publications

(379 reference statements)

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“…Different kinds of nanocomposites were also applied for the preparation of hydrophobic and superhydrophobic surfaces. Their use enabled the development of repellent surfaces with antiviral and antibacterial properties and helped to stop pandemics [ 225 ].…”

Section: Superhydrophobic Thin Coatings On Textile Materials Obtained...mentioning

confidence: 99%

Modifications of Textile Materials with Functional Silanes, Liquid Silicone Softeners, and Silicone Rubbers—A Review

Chruściel¹

2022

Polymers

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General information concerning different kinds of chemical additives used in the textile industry has been described in this paper. The properties and applications of organofunctional silanes and polysiloxanes (silicones) for chemical and physical modifications of textile materials have been reviewed, with a focus on silicone softeners, silane, and silicones-based superhydrophobic finishes and coatings on textiles composed of silicone elastomers and rubbers. The properties of textile materials modified with silanes and silicones and their practical and potential applications, mainly in the textile industry, have been discussed.

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Section: Superhydrophobic Thin Coatings On Textile Materials Obtained...mentioning

confidence: 99%

Modifications of Textile Materials with Functional Silanes, Liquid Silicone Softeners, and Silicone Rubbers—A Review

Chruściel¹

2022

Polymers

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“…In the last 20 years high water-repellent surfaces have attracted the scientific community due to their wide potential applications in various research and technological fields [6,7] (Figure 1). Lotus-leaf-inspired superhydrophobic surfaces (SHS) and Pitcherplant-inspired slippery liquid-infused porous surfaces (SLIPS) are compared in this review work [8] providing the state-of-the-art bio-inspired icephobic coatings/surfaces aimed at aircraft icing mitigation Experiments [9] were carried out at Icing Research Tunnel of Iowa State University (i.e., ISU-IRT) facility aiming to evaluate SHS and SLIPS coatings effectiveness in decreasing or eliminating ice accretion and its impact over the surfaces of typical airfoil/wing models.…”

Section: Introductionmentioning

confidence: 99%

Superhydrophobic Coating Solutions for Deicing Control in Aircraft

Ferrari,

Cirisano

2023

Applied Sciences

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The risk of accidents caused by ice adhesion on critical aircraft surfaces is a significant concern. To combat this, active ice protection systems (AIPS) are installed on aircraft, which, while effective, also increase fuel consumption and add complexity to the aircraft systems. Replacing AIPS with Passive Ice Protection Systems (PIPS) or reducing the energy consumption of AIPS could significantly decrease aircraft fuel consumption. Superhydrophobic (SH) coatings have been developed to reduce water adherence to surfaces and have the potential to reduce ice adhesion, commonly referred to as icephobic coatings. The question remains whether such coatings could reduce the cost associated with AIPS and provide durability and performance through suitable tests. In this paper, we then review current knowledge of superhydrophobic and icephobic coatings as potential passive solutions to be utilized alternatively in combination with active systems. We can identify physical parameters, coating composition, structure, roughness, and morphology, durability as properties not to be neglected in the design and development of reliable protection systems in aircraft maintenance.

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“…Figure 1. Design of structure and water contact angles and roll-off angles of leaf surfaces with superhydrophobic properties [16,17].…”

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confidence: 99%

“…Superhydrophobic surfaces are typically structured at the micro or nanoscale, featuring a hierarchy of protrusions or textures that minimize the contact area between water and the surface [17]. These intricate surface structures trap air within their interstices, creating a cushioning effect that prevents water from adhering.…”

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confidence: 99%

Superhydrophobic Materials from Waste: Innovative Approach

Cannio,

Boccaccini,

Caporali

et al. 2024

Clean Technol.

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Superhydrophobic materials, known for their exceptional water-repellent properties, have found widespread applications in diverse fields such as self-cleaning surfaces, anti-icing coatings, and water-resistant textiles. In recent years, researchers have explored a sustainable approach by repurposing waste materials to create superhydrophobic surfaces. This eco-friendly approach not only reduces environmental impact but also aligns with circular economy principles, contributing to a more sustainable future. Creating superhydrophobic materials from waste involves a combination of surface modification techniques and hierarchical structuring, with rigorous characterization to ensure the desired properties. These materials showcase their potential in various industries, opening doors to more environmentally friendly technologies. This review delves into the concept of superhydrophobic materials derived from waste and the methods used for their synthesis. It begins by defining superhydrophobicity and highlighting its unique characteristics. It emphasizes the pivotal role played by superhydrophobic materials across industries. The review then explores waste materials’ untapped potential, discussing the advantages of harnessing waste for superhydrophobic material development. Concrete examples of promising waste materials are provided, including agricultural residues and industrial byproducts. The review outlines five key sections that will be further developed to offer a comprehensive understanding of this innovative and sustainable approach to superhydrophobic materials.

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Advances in the development of superhydrophobic and icephobic surfaces

Cited by 14 publications

References 267 publications

Modifications of Textile Materials with Functional Silanes, Liquid Silicone Softeners, and Silicone Rubbers—A Review

Modifications of Textile Materials with Functional Silanes, Liquid Silicone Softeners, and Silicone Rubbers—A Review

Superhydrophobic Coating Solutions for Deicing Control in Aircraft

Superhydrophobic Materials from Waste: Innovative Approach

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