Phys.org December 22, 2022 Researchers in Russia have developed nanostructured sensor made of carbon nanotubes which generates heat under electrical current. When it is embedded in a composite, it leaves the composite’s thickness unaffected, other characteristics unimpaired and does not create undesirable pores. It can serve as a sensor for structural health monitoring or a heater for anti-icing or de-icing purposes. By applying an electrical current to the carbon nanotube layer and monitoring the signal, it is possible to keep track of the structure’s deterioration and avert disaster by anticipating breakage. Electricity can also be used for heating to de-ice […]
Tag Archives: Hydrophobic materials
Scientists use modified silk proteins to create new nonstick surfaces
Science Daily September 23, 2022 Silk fibroin protein, a biomaterial, has excellent biocompatibility and low immunogenicity. It is used in stents, catheters, and wound dressings. To further expand its scope and utility a team of researchers in the US (Tufts University, California State University at Fresno) has modulated the hydrophobicity of silk fibroin protein. They found that installing perfluorocarbon chains on the surface of silk fibroin transforms this water-soluble protein into a hydrophobic polymer that can be solvent-cast. A clear relationship emerged between fluorine content of the modified silk and film hydrophobicity. Water contact angles of the most decorated silk […]
Newly developed ice-shedding coating is 100 times stronger than others
Phys.org September 12, 2022 Many of the current ice-shedding materials have low durability limiting their applicability. Researchers at the University of Houston used the concept of “fracture-controlled surface” to affect the interfacial crack nucleation and growth on the surfaces through coordinated mechanical and chemical heterogeneity in the material structure. Measurements indicated low ice adhesion, high mechanical durability, and three orders of magnitude greater than other state-of-the-art ice-shedding materials. They pre-specified the crack nucleation coordinates at the interface and guided the crack growth in an interfacial plane, with no kinking in other directions to maximize the energy that goes towards crack […]
Water-repellent nanomaterial inspired by nature
Science Daily September 7, 2021 Using colloidal gels of fullerite C60 and C70 nanocrystals researchers at the University of Central Florida have developed superhydrophobic films and coatings. They demonstrated that despite the high surface energy of these van der Waals molecular crystals their gelation can create films having self-affine fractal surfaces with multiscale roughness. In experiments when submerged in water the material stayed dry up to 3 h even at a water depth of two feet and exhibit the plastron effect. According to the researchers non-wettable films of such materials are unique as fullerites get photosensitized instantaneously generating extremely high […]
Superhydrophobic ‘nanoflower’ for biomedical applications
Science Daily July 2, 2019 Current superhydrophobic materials require alteration to the chemistry or topography of the surface to work which limits their use. Researchers at Texas A&M adopted a ‘nanoflower-like’ assembly of Molybdenum disulfide (MoS2) atomic layers to protect the surface from wetting. With their hexagonal packed layer 2D materials repel water adherence, however, a missing atom from the top layer can allow easy access to water molecules by the next layer of atoms underneath making it transit from hydrophobic to hydrophilic. For biomedical applications specifically, the study demonstrated that blood and cell culture media containing proteins do not […]
New coatings make natural fabrics waterproof
Science Daily June 29, 2018 Conventional water-repellent coatings have been shown to persist in the environment and accumulate in our bodies. Researchers at MIT have developed a process that allows for iCVD deposition of durable, conformal short fluorinated polymers stabilized with a crosslinking agent resulting in high hydrophobicity, low liquid adhesion while maintaining initial substrate breathability. To further enhance the dynamic water repellency performance, the chemical treatment is combined with physical texturing making this combined approach a suitable candidate to meet the industrial needs. The process works on different kinds of materials including cotton, nylon, linen and paper, opening a […]