Researchers from Tokyo Metropolitan University have developed a new atomically layered material which experiences a five order of magnitude resistivity reduction when oxidized, more than a hundred ...

Chinese semiconductor equipment maker Advanced Micro-Fabrication Equipment (AMEC) reported strong growth in the first three ...

Researchers have successfully developed a rapid and scalable evaporation-induced method to create continuous, uniform thin films of mesoporous amorphous metal-organic frameworks (aMOFs).

Researchers at University of Tsukuba have developed a technology for real-time estimation of the valence state and growth rate of iron oxide thin films during their formation. This novel technology ...

The coating, only 0.1 millimeter thick, can reportedly endure temperatures as high as 1,000 degrees Celsius (1,832 degrees ...

Discover how a food-safe edible fungus can be used to waterproof paper and textiles, providing eco-friendly alternatives for ...

As an alternative to single-use plastic wrap and paper cup coatings, researchers in Langmuir report a way to waterproof ...

Thermal interface materials (TIMs) and thermal coatings are crucial to managing the amount of heat on PCBs, and act as a ...

Thin film coatings may only be a few nanometers thick, but they can radically change how a surface behaves. From protecting materials from corrosion to changing interactions with light, moisture, or ...

Abstract: Lossy mode resonance (LMR) combined with side-polished fibers and thin film coatings were used to fabricate a high-sensitivity temperature sensor. Tin dioxide ($\text{SnO}_{2}$) thin film ...

Empa researchers led by Simon Gramatte (front) and Vladyslav Turlo have succeeded for the first time in simulating amorphous aluminum oxide with hydrogen inclusions with atomic precision. Aluminum ...