Superhydrophobic Materials revolutionizing Surface Science

Superhydrophobic Materials revolutionizing Surface Science

Superhydrophobic Materials revolutionizing Surface Science

Superhydrophobic surfaces, characterized by their ability to repel water with a contact angle above 150° and a sliding angle below 10°, offer a range of applications from self-cleaning and anti-corrosion to oil/water separation and droplet manipulation.

Traditionally, creating such surfaces has been challenging, requiring complex, time-consuming, or material-specific methods. Recent advancements, however, include innovative techniques like 3D printing for adjustable porosity, hydrothermal methods for antibacterial coatings, and soft-imprinting for lotus-inspired textures. Despite these developments, a need for simpler, versatile methods persists.

A new study released on 19 January 2024, in Journal of Central South University focused on a novel technique for creating superhydrophobic surfaces that can repel water effectively.

This new method for creating water-repellent surfaces has two main steps. First, a special laser (femtosecond laser) is used to carve tiny patterns on different materials. This carving is really detailed, making small structures that help enhancing surface roughness. Next, these laser-carved surfaces are coated with stearic acid, a substance that makes them water-repellent by reducing surface energy.

This combination of laser carving and chemical coating creates a strong water-repellent surface. What’s great about this method is that it can be used on many different materials like metals, ceramics, and plastics, making it more versatile than older techniques. This could be really useful for things like keeping electronic devices safe from water or improving medical tools.

Professor YIN Kai, the lead researcher, stated: “Our femtosecond laser-chemical hybrid processing technique marks a significant advancement in material science, offering a versatile approach to creating superhydrophobic surfaces on various substrate.”

The femtosecond laser-chemical hybrid processing technique represents a leap forward in the creation of superhydrophobic surfaces, with potential implications across a broad range of fields. By enabling the application of superhydrophobic coatings on various material, this research paves the way for innovations in surface science and technology.

Superhydrophobic Materials revolutionizing Surface Science
Fabrication of substrate-independent superhydrophobic surfaces: (a) Schematic diagram for fabrication of substrate-independent superhydrophobic surfaces; (b) Photos of the water droplets placed on the Pristine ceramic, Ti, Si, and quartz glass, respectively; (c) Optical photos and static contact angles of the water droplets placed on the LTC-SA, LTT-SA, LTS-SA, and LTQ-SA, respectively; (d) Comparison of WCAs on pristine and treated samples surfaces; (e) Comparison between our proposed method and previously reported other preparation methods for superhydrophobic surfaces. Credit: Journal of Central South University

Post source : Chinese Academy of Sciences

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Anthony brings a wealth of global experience to his role as Managing Editor of Highways.Today. With an extensive career spanning several decades in the construction industry, Anthony has worked on diverse projects across continents, gaining valuable insights and expertise in highway construction, infrastructure development, and innovative engineering solutions. His international experience equips him with a unique perspective on the challenges and opportunities within the highways industry.

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